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-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
-------------------------------------------------------------------------------------------- -- DSP Builder (Version 9.1) -- Quartus II development tool and MATLAB/Simulink Interface -- -- Legal Notice: © 2001 Altera Corporation. All rights reserved. Your use of Altera -- Corporation's design tools, logic functions and other software and tools, and its -- AMPP partner logic functions, and any output files any of the foregoing -- (including device programming or simulation files), and any associated -- documentation or information are expressly subject to the terms and conditions -- of the Altera Program License Subscription Agreement, Altera MegaCore Function -- License Agreement, or other applicable license agreement, including, without -- limitation, that your use is for the sole purpose of programming logic devices -- manufactured by Altera and sold by Altera or its authorized distributors. -- Please refer to the applicable agreement for further details. -------------------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; library altera; use altera.alt_dspbuilder_package.all; entity alt_dspbuilder_sAltrBitPropagate is generic ( QTB : string :="on"; QTB_PRODUCT : string :="DSP Builder"; QTB_VERSION : string :="6.0" ); port ( d : in std_logic; r : out std_logic ); end alt_dspbuilder_sAltrBitPropagate ; architecture sAltrBitPropagate_Synth of alt_dspbuilder_sAltrBitPropagate is begin r<=d; end sAltrBitPropagate_Synth;
library ieee; use ieee.std_logic_1164.all; use IEEE.std_logic_unsigned.all; entity mdr is port( clock : in std_logic; busC : in std_logic_vector(31 downto 0); latch : in std_logic; memo : in std_logic_vector(15 downto 0); sel : in std_logic; data : out std_logic_vector(15 downto 0) ); end mdr; architecture BEHAVIOR of mdr is begin process(clock) begin if(clock'event and clock = '1')then if(latch = '1')then if(sel = '0')then data <= busC(15 downto 0); elsif(sel = '1')then data <= memo; else null; end if; else null; end if; else null; end if; end process; end BEHAVIOR;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 13:09:17 11/30/2015 -- Design Name: -- Module Name: AND_GATE - Behavioral -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values --use IEEE.NUMERIC_STD.ALL; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity AND_GATE is Port ( INT : in STD_LOGIC; MASK : in STD_LOGIC; CU_INT : out STD_LOGIC); end AND_GATE; architecture Behavioral of AND_GATE is begin cu_INT <= INT and MASK; end Behavioral;
--*************************************************************************** -- (c) Copyright 2009 Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. Except as -- otherwise provided in a valid license issued to you by -- Xilinx, and to the maximum extent permitted by applicable -- law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND -- WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES -- AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING -- BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON- -- INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and -- (2) Xilinx shall not be liable (whether in contract or tort, -- including negligence, or under any other theory of -- liability) for any loss or damage of any kind or nature -- related to, arising under or in connection with these -- materials, including for any direct, or any indirect, -- special, incidental, or consequential loss or damage -- (including loss of data, profits, goodwill, or any type of -- loss or damage suffered as a result of any action brought -- by a third party) even if such damage or loss was -- reasonably foreseeable or Xilinx had been advised of the -- possibility of the same. -- -- CRITICAL APPLICATIONS -- Xilinx products are not designed or intended to be fail- -- safe, or for use in any application requiring fail-safe -- performance, such as life-support or safety devices or -- systems, Class III medical devices, nuclear facilities, -- applications related to the deployment of airbags, or any -- other applications that could lead to death, personal -- injury, or severe property or environmental damage -- (individually and collectively, "Critical -- Applications"). Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. -- --************************************************************************* -- ____ ____ -- / /\/ / -- /___/ \ / Vendor : Xilinx -- \ \ \/ Version : 3.9 -- \ \ Application : MIG -- / / Filename : memc1_tb_top.vhd -- /___/ /\ Date Last Modified : $Date: 2011/06/02 07:16:59 $ -- \ \ / \ Date Created : Jul 03 2009 -- \___\/\___\ -- --Device : Spartan-6 --Design Name : DDR/DDR2/DDR3/LPDDR --Purpose : This is top level module for test bench. which instantiates -- init_mem_pattern_ctr and mcb_traffic_gen modules for each user -- port. --Reference : --Revision History : --************************************************************************* library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.numeric_std.all; entity memc1_tb_top is generic ( C_P0_MASK_SIZE : integer := 4; C_P0_DATA_PORT_SIZE : integer := 32; C_P1_MASK_SIZE : integer := 4; C_P1_DATA_PORT_SIZE : integer := 32; C_MEM_BURST_LEN : integer := 8; C_SIMULATION : string := "FALSE"; C_MEM_NUM_COL_BITS : integer := 11; C_NUM_DQ_PINS : integer := 8; C_SMALL_DEVICE : string := "FALSE"; C_p0_BEGIN_ADDRESS : std_logic_vector(31 downto 0) := X"00000100"; C_p0_DATA_MODE : std_logic_vector(3 downto 0) := "0010"; C_p0_END_ADDRESS : std_logic_vector(31 downto 0) := X"000002ff"; C_p0_PRBS_EADDR_MASK_POS : std_logic_vector(31 downto 0) := X"fffffc00"; C_p0_PRBS_SADDR_MASK_POS : std_logic_vector(31 downto 0) := X"00000100" ); port ( clk0 : in std_logic; rst0 : in std_logic; calib_done : in std_logic; p0_mcb_cmd_en_o : out std_logic; p0_mcb_cmd_instr_o : out std_logic_vector(2 downto 0); p0_mcb_cmd_bl_o : out std_logic_vector(5 downto 0); p0_mcb_cmd_addr_o : out std_logic_vector(29 downto 0); p0_mcb_cmd_full_i : in std_logic; p0_mcb_wr_en_o : out std_logic; p0_mcb_wr_mask_o : out std_logic_vector(C_P0_MASK_SIZE - 1 downto 0); p0_mcb_wr_data_o : out std_logic_vector(C_P0_DATA_PORT_SIZE - 1 downto 0); p0_mcb_wr_full_i : in std_logic; p0_mcb_wr_fifo_counts : in std_logic_vector(6 downto 0); p0_mcb_rd_en_o : out std_logic; p0_mcb_rd_data_i : in std_logic_vector(C_P0_DATA_PORT_SIZE - 1 downto 0); p0_mcb_rd_empty_i : in std_logic; p0_mcb_rd_fifo_counts : in std_logic_vector(6 downto 0); vio_modify_enable : in std_logic; vio_data_mode_value : in std_logic_vector(2 downto 0); vio_addr_mode_value : in std_logic_vector(2 downto 0); cmp_error : out std_logic; cmp_data : out std_logic_vector(31 downto 0); cmp_data_valid : out std_logic; error : out std_logic; error_status : out std_logic_vector(127 downto 0) ); end memc1_tb_top; architecture arc of memc1_tb_top is function ERROR_DQWIDTH (val_i : integer) return integer is begin if (val_i = 4) then return 1; else return val_i/8; end if; end function ERROR_DQWIDTH; constant DQ_ERROR_WIDTH : integer := ERROR_DQWIDTH(C_NUM_DQ_PINS); component init_mem_pattern_ctr IS generic ( FAMILY : string; BEGIN_ADDRESS : std_logic_vector(31 downto 0); END_ADDRESS : std_logic_vector(31 downto 0); DWIDTH : integer; CMD_SEED_VALUE : std_logic_vector(31 downto 0); DATA_SEED_VALUE : std_logic_vector(31 downto 0); DATA_MODE : std_logic_vector(3 downto 0); PORT_MODE : string ); PORT ( clk_i : in std_logic; rst_i : in std_logic; mcb_cmd_bl_i : in std_logic_vector(5 downto 0); mcb_cmd_en_i : in std_logic; mcb_cmd_instr_i : in std_logic_vector(2 downto 0); mcb_init_done_i : in std_logic; mcb_wr_en_i : in std_logic; vio_modify_enable : in std_logic; vio_data_mode_value : in std_logic_vector(2 downto 0); vio_addr_mode_value : in std_logic_vector(2 downto 0); vio_bl_mode_value : in STD_LOGIC_VECTOR(1 downto 0); vio_fixed_bl_value : in STD_LOGIC_VECTOR(5 downto 0); cmp_error : in std_logic; run_traffic_o : out std_logic; start_addr_o : out std_logic_vector(31 downto 0); end_addr_o : out std_logic_vector(31 downto 0); cmd_seed_o : out std_logic_vector(31 downto 0); data_seed_o : out std_logic_vector(31 downto 0); load_seed_o : out std_logic; addr_mode_o : out std_logic_vector(2 downto 0); instr_mode_o : out std_logic_vector(3 downto 0); bl_mode_o : out std_logic_vector(1 downto 0); data_mode_o : out std_logic_vector(3 downto 0); mode_load_o : out std_logic; fixed_bl_o : out std_logic_vector(5 downto 0); fixed_instr_o : out std_logic_vector(2 downto 0); fixed_addr_o : out std_logic_vector(31 downto 0) ); end component; component mcb_traffic_gen is generic ( FAMILY : string; SIMULATION : string; MEM_BURST_LEN : integer; PORT_MODE : string; DATA_PATTERN : string; CMD_PATTERN : string; ADDR_WIDTH : integer; CMP_DATA_PIPE_STAGES : integer; MEM_COL_WIDTH : integer; NUM_DQ_PINS : integer; DQ_ERROR_WIDTH : integer; DWIDTH : integer; PRBS_EADDR_MASK_POS : std_logic_vector(31 downto 0); PRBS_SADDR_MASK_POS : std_logic_vector(31 downto 0); PRBS_EADDR : std_logic_vector(31 downto 0); PRBS_SADDR : std_logic_vector(31 downto 0) ); port ( clk_i : in std_logic; rst_i : in std_logic; run_traffic_i : in std_logic; manual_clear_error : in std_logic; -- * runtime parameter *** start_addr_i : in std_logic_vector(31 downto 0); end_addr_i : in std_logic_vector(31 downto 0); cmd_seed_i : in std_logic_vector(31 downto 0); data_seed_i : in std_logic_vector(31 downto 0); load_seed_i : in std_logic; addr_mode_i : in std_logic_vector(2 downto 0); instr_mode_i : in std_logic_vector(3 downto 0); bl_mode_i : in std_logic_vector(1 downto 0); data_mode_i : in std_logic_vector(3 downto 0); mode_load_i : in std_logic; -- fixed pattern inputs interface fixed_bl_i : in std_logic_vector(5 downto 0); fixed_instr_i : in std_logic_vector(2 downto 0); fixed_addr_i : in std_logic_vector(31 downto 0); fixed_data_i : IN STD_LOGIC_VECTOR(DWIDTH-1 DOWNTO 0); bram_cmd_i : in std_logic_vector(38 downto 0); bram_valid_i : in std_logic; bram_rdy_o : out std_logic; --/////////////////////////////////////////////////////////////////////////// -- MCB INTERFACE -- interface to mcb command port mcb_cmd_en_o : out std_logic; mcb_cmd_instr_o : out std_logic_vector(2 downto 0); mcb_cmd_addr_o : out std_logic_vector(ADDR_WIDTH - 1 downto 0); mcb_cmd_bl_o : out std_logic_vector(5 downto 0); mcb_cmd_full_i : in std_logic; -- interface to mcb wr data port mcb_wr_en_o : out std_logic; mcb_wr_data_o : out std_logic_vector(DWIDTH - 1 downto 0); mcb_wr_mask_o : out std_logic_vector((DWIDTH / 8) - 1 downto 0); mcb_wr_data_end_o : OUT std_logic; mcb_wr_full_i : in std_logic; mcb_wr_fifo_counts : in std_logic_vector(6 downto 0); -- interface to mcb rd data port mcb_rd_en_o : out std_logic; mcb_rd_data_i : in std_logic_vector(DWIDTH - 1 downto 0); mcb_rd_empty_i : in std_logic; mcb_rd_fifo_counts : in std_logic_vector(6 downto 0); --/////////////////////////////////////////////////////////////////////////// -- status feedback counts_rst : in std_logic; wr_data_counts : out std_logic_vector(47 downto 0); rd_data_counts : out std_logic_vector(47 downto 0); cmp_data : out std_logic_vector(DWIDTH - 1 downto 0); cmp_data_valid : out std_logic; cmp_error : out std_logic; error : out std_logic; error_status : out std_logic_vector(64 + (2 * DWIDTH - 1) downto 0); mem_rd_data : out std_logic_vector(DWIDTH - 1 downto 0); dq_error_bytelane_cmp : out std_logic_vector(DQ_ERROR_WIDTH - 1 downto 0); cumlative_dq_lane_error : out std_logic_vector(DQ_ERROR_WIDTH - 1 downto 0) ); end component; -- Function to determine the number of data patterns to be generated function DATA_PATTERN_CALC return string is begin if (C_SMALL_DEVICE = "FALSE") then return "DGEN_ALL"; else return "DGEN_ADDR"; end if; end function; constant FAMILY : string := "SPARTAN6"; constant DATA_PATTERN : string := DATA_PATTERN_CALC; constant CMD_PATTERN : string := "CGEN_ALL"; constant ADDR_WIDTH : integer := 30; constant CMP_DATA_PIPE_STAGES : integer := 0; constant PRBS_SADDR_MASK_POS : std_logic_vector(31 downto 0) := X"00007000"; constant PRBS_EADDR_MASK_POS : std_logic_vector(31 downto 0) := X"FFFF8000"; constant PRBS_SADDR : std_logic_vector(31 downto 0) := X"00005000"; constant PRBS_EADDR : std_logic_vector(31 downto 0) := X"00007fff"; constant BEGIN_ADDRESS : std_logic_vector(31 downto 0) := X"00000000"; constant END_ADDRESS : std_logic_vector(31 downto 0) := X"00000fff"; constant DATA_MODE : std_logic_vector(3 downto 0) := "0010"; constant p0_DWIDTH : integer := 32; constant p0_PORT_MODE : string := "BI_MODE"; --p0 Signal declarations signal p0_tg_run_traffic : std_logic; signal p0_tg_start_addr : std_logic_vector(31 downto 0); signal p0_tg_end_addr : std_logic_vector(31 downto 0); signal p0_tg_cmd_seed : std_logic_vector(31 downto 0); signal p0_tg_data_seed : std_logic_vector(31 downto 0); signal p0_tg_load_seed : std_logic; signal p0_tg_addr_mode : std_logic_vector(2 downto 0); signal p0_tg_instr_mode : std_logic_vector(3 downto 0); signal p0_tg_bl_mode : std_logic_vector(1 downto 0); signal p0_tg_data_mode : std_logic_vector(3 downto 0); signal p0_tg_mode_load : std_logic; signal p0_tg_fixed_bl : std_logic_vector(5 downto 0); signal p0_tg_fixed_instr : std_logic_vector(2 downto 0); signal p0_tg_fixed_addr : std_logic_vector(31 downto 0); signal p0_error_status : std_logic_vector(64 + (2*p0_DWIDTH - 1) downto 0); signal p0_error : std_logic; signal p0_cmp_error : std_logic; signal p0_cmp_data : std_logic_vector(p0_DWIDTH-1 downto 0); signal p0_cmp_data_valid : std_logic; signal p0_mcb_cmd_en_o_int : std_logic; signal p0_mcb_cmd_instr_o_int : std_logic_vector(2 downto 0); signal p0_mcb_cmd_bl_o_int : std_logic_vector(5 downto 0); signal p0_mcb_cmd_addr_o_int : std_logic_vector(29 downto 0); signal p0_mcb_wr_en_o_int : std_logic; --signal cmp_data : std_logic_vector(31 downto 0); begin cmp_error <= p0_cmp_error; error <= p0_error; error_status <= p0_error_status; cmp_data <= p0_cmp_data(31 downto 0); cmp_data_valid <= p0_cmp_data_valid; p0_mcb_cmd_en_o <= p0_mcb_cmd_en_o_int; p0_mcb_cmd_instr_o <= p0_mcb_cmd_instr_o_int; p0_mcb_cmd_bl_o <= p0_mcb_cmd_bl_o_int; p0_mcb_cmd_addr_o <= p0_mcb_cmd_addr_o_int; p0_mcb_wr_en_o <= p0_mcb_wr_en_o_int; init_mem_pattern_ctr_p0 :init_mem_pattern_ctr generic map ( DWIDTH => p0_DWIDTH, FAMILY => FAMILY, BEGIN_ADDRESS => C_p0_BEGIN_ADDRESS, END_ADDRESS => C_p0_END_ADDRESS, CMD_SEED_VALUE => X"56456783", DATA_SEED_VALUE => X"12345678", DATA_MODE => C_p0_DATA_MODE, PORT_MODE => p0_PORT_MODE ) port map ( clk_i => clk0, rst_i => rst0, mcb_cmd_en_i => p0_mcb_cmd_en_o_int, mcb_cmd_instr_i => p0_mcb_cmd_instr_o_int, mcb_cmd_bl_i => p0_mcb_cmd_bl_o_int, mcb_wr_en_i => p0_mcb_wr_en_o_int, vio_modify_enable => vio_modify_enable, vio_data_mode_value => vio_data_mode_value, vio_addr_mode_value => vio_addr_mode_value, vio_bl_mode_value => "10",--vio_bl_mode_value, vio_fixed_bl_value => "000000",--vio_fixed_bl_value, mcb_init_done_i => calib_done, cmp_error => p0_error, run_traffic_o => p0_tg_run_traffic, start_addr_o => p0_tg_start_addr, end_addr_o => p0_tg_end_addr , cmd_seed_o => p0_tg_cmd_seed , data_seed_o => p0_tg_data_seed , load_seed_o => p0_tg_load_seed , addr_mode_o => p0_tg_addr_mode , instr_mode_o => p0_tg_instr_mode , bl_mode_o => p0_tg_bl_mode , data_mode_o => p0_tg_data_mode , mode_load_o => p0_tg_mode_load , fixed_bl_o => p0_tg_fixed_bl , fixed_instr_o => p0_tg_fixed_instr, fixed_addr_o => p0_tg_fixed_addr ); m_traffic_gen_p0 : mcb_traffic_gen generic map( MEM_BURST_LEN => C_MEM_BURST_LEN, MEM_COL_WIDTH => C_MEM_NUM_COL_BITS, NUM_DQ_PINS => C_NUM_DQ_PINS, DQ_ERROR_WIDTH => DQ_ERROR_WIDTH, PORT_MODE => p0_PORT_MODE, DWIDTH => p0_DWIDTH, CMP_DATA_PIPE_STAGES => CMP_DATA_PIPE_STAGES, FAMILY => FAMILY, SIMULATION => "FALSE", DATA_PATTERN => DATA_PATTERN, CMD_PATTERN => "CGEN_ALL", ADDR_WIDTH => 30, PRBS_SADDR_MASK_POS => C_p0_PRBS_SADDR_MASK_POS, PRBS_EADDR_MASK_POS => C_p0_PRBS_EADDR_MASK_POS, PRBS_SADDR => C_p0_BEGIN_ADDRESS, PRBS_EADDR => C_p0_END_ADDRESS ) port map ( clk_i => clk0, rst_i => rst0, run_traffic_i => p0_tg_run_traffic, manual_clear_error => rst0, -- runtime parameter start_addr_i => p0_tg_start_addr , end_addr_i => p0_tg_end_addr , cmd_seed_i => p0_tg_cmd_seed , data_seed_i => p0_tg_data_seed , load_seed_i => p0_tg_load_seed, addr_mode_i => p0_tg_addr_mode, instr_mode_i => p0_tg_instr_mode , bl_mode_i => p0_tg_bl_mode , data_mode_i => p0_tg_data_mode , mode_load_i => p0_tg_mode_load , -- fixed pattern inputs interface fixed_bl_i => p0_tg_fixed_bl, fixed_instr_i => p0_tg_fixed_instr, fixed_addr_i => p0_tg_fixed_addr, fixed_data_i => (others => '0'), -- BRAM interface. bram_cmd_i => (others => '0'), bram_valid_i => '0', bram_rdy_o => open, -- MCB INTERFACE mcb_cmd_en_o => p0_mcb_cmd_en_o_int, mcb_cmd_instr_o => p0_mcb_cmd_instr_o_int, mcb_cmd_bl_o => p0_mcb_cmd_bl_o_int, mcb_cmd_addr_o => p0_mcb_cmd_addr_o_int, mcb_cmd_full_i => p0_mcb_cmd_full_i, mcb_wr_en_o => p0_mcb_wr_en_o_int, mcb_wr_mask_o => p0_mcb_wr_mask_o, mcb_wr_data_o => p0_mcb_wr_data_o, mcb_wr_data_end_o => open, mcb_wr_full_i => p0_mcb_wr_full_i, mcb_wr_fifo_counts => p0_mcb_wr_fifo_counts, mcb_rd_en_o => p0_mcb_rd_en_o, mcb_rd_data_i => p0_mcb_rd_data_i, mcb_rd_empty_i => p0_mcb_rd_empty_i, mcb_rd_fifo_counts => p0_mcb_rd_fifo_counts, -- status feedback counts_rst => rst0, wr_data_counts => open, rd_data_counts => open, cmp_data => p0_cmp_data, cmp_data_valid => p0_cmp_data_valid, cmp_error => p0_cmp_error, error => p0_error, error_status => p0_error_status, mem_rd_data => open, dq_error_bytelane_cmp => open, cumlative_dq_lane_error => open ); end architecture;
--*************************************************************************** -- (c) Copyright 2009 Xilinx, Inc. All rights reserved. -- -- This file contains confidential and proprietary information -- of Xilinx, Inc. and is protected under U.S. and -- international copyright and other intellectual property -- laws. -- -- DISCLAIMER -- This disclaimer is not a license and does not grant any -- rights to the materials distributed herewith. Except as -- otherwise provided in a valid license issued to you by -- Xilinx, and to the maximum extent permitted by applicable -- law: (1) THESE MATERIALS ARE MADE AVAILABLE "AS IS" AND -- WITH ALL FAULTS, AND XILINX HEREBY DISCLAIMS ALL WARRANTIES -- AND CONDITIONS, EXPRESS, IMPLIED, OR STATUTORY, INCLUDING -- BUT NOT LIMITED TO WARRANTIES OF MERCHANTABILITY, NON- -- INFRINGEMENT, OR FITNESS FOR ANY PARTICULAR PURPOSE; and -- (2) Xilinx shall not be liable (whether in contract or tort, -- including negligence, or under any other theory of -- liability) for any loss or damage of any kind or nature -- related to, arising under or in connection with these -- materials, including for any direct, or any indirect, -- special, incidental, or consequential loss or damage -- (including loss of data, profits, goodwill, or any type of -- loss or damage suffered as a result of any action brought -- by a third party) even if such damage or loss was -- reasonably foreseeable or Xilinx had been advised of the -- possibility of the same. -- -- CRITICAL APPLICATIONS -- Xilinx products are not designed or intended to be fail- -- safe, or for use in any application requiring fail-safe -- performance, such as life-support or safety devices or -- systems, Class III medical devices, nuclear facilities, -- applications related to the deployment of airbags, or any -- other applications that could lead to death, personal -- injury, or severe property or environmental damage -- (individually and collectively, "Critical -- Applications"). Customer assumes the sole risk and -- liability of any use of Xilinx products in Critical -- Applications, subject only to applicable laws and -- regulations governing limitations on product liability. -- -- THIS COPYRIGHT NOTICE AND DISCLAIMER MUST BE RETAINED AS -- PART OF THIS FILE AT ALL TIMES. -- --************************************************************************* -- ____ ____ -- / /\/ / -- /___/ \ / Vendor : Xilinx -- \ \ \/ Version : 3.9 -- \ \ Application : MIG -- / / Filename : memc1_tb_top.vhd -- /___/ /\ Date Last Modified : $Date: 2011/06/02 07:16:59 $ -- \ \ / \ Date Created : Jul 03 2009 -- \___\/\___\ -- --Device : Spartan-6 --Design Name : DDR/DDR2/DDR3/LPDDR --Purpose : This is top level module for test bench. which instantiates -- init_mem_pattern_ctr and mcb_traffic_gen modules for each user -- port. --Reference : --Revision History : --************************************************************************* library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; use ieee.numeric_std.all; entity memc1_tb_top is generic ( C_P0_MASK_SIZE : integer := 4; C_P0_DATA_PORT_SIZE : integer := 32; C_P1_MASK_SIZE : integer := 4; C_P1_DATA_PORT_SIZE : integer := 32; C_MEM_BURST_LEN : integer := 8; C_SIMULATION : string := "FALSE"; C_MEM_NUM_COL_BITS : integer := 11; C_NUM_DQ_PINS : integer := 8; C_SMALL_DEVICE : string := "FALSE"; C_p0_BEGIN_ADDRESS : std_logic_vector(31 downto 0) := X"00000100"; C_p0_DATA_MODE : std_logic_vector(3 downto 0) := "0010"; C_p0_END_ADDRESS : std_logic_vector(31 downto 0) := X"000002ff"; C_p0_PRBS_EADDR_MASK_POS : std_logic_vector(31 downto 0) := X"fffffc00"; C_p0_PRBS_SADDR_MASK_POS : std_logic_vector(31 downto 0) := X"00000100" ); port ( clk0 : in std_logic; rst0 : in std_logic; calib_done : in std_logic; p0_mcb_cmd_en_o : out std_logic; p0_mcb_cmd_instr_o : out std_logic_vector(2 downto 0); p0_mcb_cmd_bl_o : out std_logic_vector(5 downto 0); p0_mcb_cmd_addr_o : out std_logic_vector(29 downto 0); p0_mcb_cmd_full_i : in std_logic; p0_mcb_wr_en_o : out std_logic; p0_mcb_wr_mask_o : out std_logic_vector(C_P0_MASK_SIZE - 1 downto 0); p0_mcb_wr_data_o : out std_logic_vector(C_P0_DATA_PORT_SIZE - 1 downto 0); p0_mcb_wr_full_i : in std_logic; p0_mcb_wr_fifo_counts : in std_logic_vector(6 downto 0); p0_mcb_rd_en_o : out std_logic; p0_mcb_rd_data_i : in std_logic_vector(C_P0_DATA_PORT_SIZE - 1 downto 0); p0_mcb_rd_empty_i : in std_logic; p0_mcb_rd_fifo_counts : in std_logic_vector(6 downto 0); vio_modify_enable : in std_logic; vio_data_mode_value : in std_logic_vector(2 downto 0); vio_addr_mode_value : in std_logic_vector(2 downto 0); cmp_error : out std_logic; cmp_data : out std_logic_vector(31 downto 0); cmp_data_valid : out std_logic; error : out std_logic; error_status : out std_logic_vector(127 downto 0) ); end memc1_tb_top; architecture arc of memc1_tb_top is function ERROR_DQWIDTH (val_i : integer) return integer is begin if (val_i = 4) then return 1; else return val_i/8; end if; end function ERROR_DQWIDTH; constant DQ_ERROR_WIDTH : integer := ERROR_DQWIDTH(C_NUM_DQ_PINS); component init_mem_pattern_ctr IS generic ( FAMILY : string; BEGIN_ADDRESS : std_logic_vector(31 downto 0); END_ADDRESS : std_logic_vector(31 downto 0); DWIDTH : integer; CMD_SEED_VALUE : std_logic_vector(31 downto 0); DATA_SEED_VALUE : std_logic_vector(31 downto 0); DATA_MODE : std_logic_vector(3 downto 0); PORT_MODE : string ); PORT ( clk_i : in std_logic; rst_i : in std_logic; mcb_cmd_bl_i : in std_logic_vector(5 downto 0); mcb_cmd_en_i : in std_logic; mcb_cmd_instr_i : in std_logic_vector(2 downto 0); mcb_init_done_i : in std_logic; mcb_wr_en_i : in std_logic; vio_modify_enable : in std_logic; vio_data_mode_value : in std_logic_vector(2 downto 0); vio_addr_mode_value : in std_logic_vector(2 downto 0); vio_bl_mode_value : in STD_LOGIC_VECTOR(1 downto 0); vio_fixed_bl_value : in STD_LOGIC_VECTOR(5 downto 0); cmp_error : in std_logic; run_traffic_o : out std_logic; start_addr_o : out std_logic_vector(31 downto 0); end_addr_o : out std_logic_vector(31 downto 0); cmd_seed_o : out std_logic_vector(31 downto 0); data_seed_o : out std_logic_vector(31 downto 0); load_seed_o : out std_logic; addr_mode_o : out std_logic_vector(2 downto 0); instr_mode_o : out std_logic_vector(3 downto 0); bl_mode_o : out std_logic_vector(1 downto 0); data_mode_o : out std_logic_vector(3 downto 0); mode_load_o : out std_logic; fixed_bl_o : out std_logic_vector(5 downto 0); fixed_instr_o : out std_logic_vector(2 downto 0); fixed_addr_o : out std_logic_vector(31 downto 0) ); end component; component mcb_traffic_gen is generic ( FAMILY : string; SIMULATION : string; MEM_BURST_LEN : integer; PORT_MODE : string; DATA_PATTERN : string; CMD_PATTERN : string; ADDR_WIDTH : integer; CMP_DATA_PIPE_STAGES : integer; MEM_COL_WIDTH : integer; NUM_DQ_PINS : integer; DQ_ERROR_WIDTH : integer; DWIDTH : integer; PRBS_EADDR_MASK_POS : std_logic_vector(31 downto 0); PRBS_SADDR_MASK_POS : std_logic_vector(31 downto 0); PRBS_EADDR : std_logic_vector(31 downto 0); PRBS_SADDR : std_logic_vector(31 downto 0) ); port ( clk_i : in std_logic; rst_i : in std_logic; run_traffic_i : in std_logic; manual_clear_error : in std_logic; -- * runtime parameter *** start_addr_i : in std_logic_vector(31 downto 0); end_addr_i : in std_logic_vector(31 downto 0); cmd_seed_i : in std_logic_vector(31 downto 0); data_seed_i : in std_logic_vector(31 downto 0); load_seed_i : in std_logic; addr_mode_i : in std_logic_vector(2 downto 0); instr_mode_i : in std_logic_vector(3 downto 0); bl_mode_i : in std_logic_vector(1 downto 0); data_mode_i : in std_logic_vector(3 downto 0); mode_load_i : in std_logic; -- fixed pattern inputs interface fixed_bl_i : in std_logic_vector(5 downto 0); fixed_instr_i : in std_logic_vector(2 downto 0); fixed_addr_i : in std_logic_vector(31 downto 0); fixed_data_i : IN STD_LOGIC_VECTOR(DWIDTH-1 DOWNTO 0); bram_cmd_i : in std_logic_vector(38 downto 0); bram_valid_i : in std_logic; bram_rdy_o : out std_logic; --/////////////////////////////////////////////////////////////////////////// -- MCB INTERFACE -- interface to mcb command port mcb_cmd_en_o : out std_logic; mcb_cmd_instr_o : out std_logic_vector(2 downto 0); mcb_cmd_addr_o : out std_logic_vector(ADDR_WIDTH - 1 downto 0); mcb_cmd_bl_o : out std_logic_vector(5 downto 0); mcb_cmd_full_i : in std_logic; -- interface to mcb wr data port mcb_wr_en_o : out std_logic; mcb_wr_data_o : out std_logic_vector(DWIDTH - 1 downto 0); mcb_wr_mask_o : out std_logic_vector((DWIDTH / 8) - 1 downto 0); mcb_wr_data_end_o : OUT std_logic; mcb_wr_full_i : in std_logic; mcb_wr_fifo_counts : in std_logic_vector(6 downto 0); -- interface to mcb rd data port mcb_rd_en_o : out std_logic; mcb_rd_data_i : in std_logic_vector(DWIDTH - 1 downto 0); mcb_rd_empty_i : in std_logic; mcb_rd_fifo_counts : in std_logic_vector(6 downto 0); --/////////////////////////////////////////////////////////////////////////// -- status feedback counts_rst : in std_logic; wr_data_counts : out std_logic_vector(47 downto 0); rd_data_counts : out std_logic_vector(47 downto 0); cmp_data : out std_logic_vector(DWIDTH - 1 downto 0); cmp_data_valid : out std_logic; cmp_error : out std_logic; error : out std_logic; error_status : out std_logic_vector(64 + (2 * DWIDTH - 1) downto 0); mem_rd_data : out std_logic_vector(DWIDTH - 1 downto 0); dq_error_bytelane_cmp : out std_logic_vector(DQ_ERROR_WIDTH - 1 downto 0); cumlative_dq_lane_error : out std_logic_vector(DQ_ERROR_WIDTH - 1 downto 0) ); end component; -- Function to determine the number of data patterns to be generated function DATA_PATTERN_CALC return string is begin if (C_SMALL_DEVICE = "FALSE") then return "DGEN_ALL"; else return "DGEN_ADDR"; end if; end function; constant FAMILY : string := "SPARTAN6"; constant DATA_PATTERN : string := DATA_PATTERN_CALC; constant CMD_PATTERN : string := "CGEN_ALL"; constant ADDR_WIDTH : integer := 30; constant CMP_DATA_PIPE_STAGES : integer := 0; constant PRBS_SADDR_MASK_POS : std_logic_vector(31 downto 0) := X"00007000"; constant PRBS_EADDR_MASK_POS : std_logic_vector(31 downto 0) := X"FFFF8000"; constant PRBS_SADDR : std_logic_vector(31 downto 0) := X"00005000"; constant PRBS_EADDR : std_logic_vector(31 downto 0) := X"00007fff"; constant BEGIN_ADDRESS : std_logic_vector(31 downto 0) := X"00000000"; constant END_ADDRESS : std_logic_vector(31 downto 0) := X"00000fff"; constant DATA_MODE : std_logic_vector(3 downto 0) := "0010"; constant p0_DWIDTH : integer := 32; constant p0_PORT_MODE : string := "BI_MODE"; --p0 Signal declarations signal p0_tg_run_traffic : std_logic; signal p0_tg_start_addr : std_logic_vector(31 downto 0); signal p0_tg_end_addr : std_logic_vector(31 downto 0); signal p0_tg_cmd_seed : std_logic_vector(31 downto 0); signal p0_tg_data_seed : std_logic_vector(31 downto 0); signal p0_tg_load_seed : std_logic; signal p0_tg_addr_mode : std_logic_vector(2 downto 0); signal p0_tg_instr_mode : std_logic_vector(3 downto 0); signal p0_tg_bl_mode : std_logic_vector(1 downto 0); signal p0_tg_data_mode : std_logic_vector(3 downto 0); signal p0_tg_mode_load : std_logic; signal p0_tg_fixed_bl : std_logic_vector(5 downto 0); signal p0_tg_fixed_instr : std_logic_vector(2 downto 0); signal p0_tg_fixed_addr : std_logic_vector(31 downto 0); signal p0_error_status : std_logic_vector(64 + (2*p0_DWIDTH - 1) downto 0); signal p0_error : std_logic; signal p0_cmp_error : std_logic; signal p0_cmp_data : std_logic_vector(p0_DWIDTH-1 downto 0); signal p0_cmp_data_valid : std_logic; signal p0_mcb_cmd_en_o_int : std_logic; signal p0_mcb_cmd_instr_o_int : std_logic_vector(2 downto 0); signal p0_mcb_cmd_bl_o_int : std_logic_vector(5 downto 0); signal p0_mcb_cmd_addr_o_int : std_logic_vector(29 downto 0); signal p0_mcb_wr_en_o_int : std_logic; --signal cmp_data : std_logic_vector(31 downto 0); begin cmp_error <= p0_cmp_error; error <= p0_error; error_status <= p0_error_status; cmp_data <= p0_cmp_data(31 downto 0); cmp_data_valid <= p0_cmp_data_valid; p0_mcb_cmd_en_o <= p0_mcb_cmd_en_o_int; p0_mcb_cmd_instr_o <= p0_mcb_cmd_instr_o_int; p0_mcb_cmd_bl_o <= p0_mcb_cmd_bl_o_int; p0_mcb_cmd_addr_o <= p0_mcb_cmd_addr_o_int; p0_mcb_wr_en_o <= p0_mcb_wr_en_o_int; init_mem_pattern_ctr_p0 :init_mem_pattern_ctr generic map ( DWIDTH => p0_DWIDTH, FAMILY => FAMILY, BEGIN_ADDRESS => C_p0_BEGIN_ADDRESS, END_ADDRESS => C_p0_END_ADDRESS, CMD_SEED_VALUE => X"56456783", DATA_SEED_VALUE => X"12345678", DATA_MODE => C_p0_DATA_MODE, PORT_MODE => p0_PORT_MODE ) port map ( clk_i => clk0, rst_i => rst0, mcb_cmd_en_i => p0_mcb_cmd_en_o_int, mcb_cmd_instr_i => p0_mcb_cmd_instr_o_int, mcb_cmd_bl_i => p0_mcb_cmd_bl_o_int, mcb_wr_en_i => p0_mcb_wr_en_o_int, vio_modify_enable => vio_modify_enable, vio_data_mode_value => vio_data_mode_value, vio_addr_mode_value => vio_addr_mode_value, vio_bl_mode_value => "10",--vio_bl_mode_value, vio_fixed_bl_value => "000000",--vio_fixed_bl_value, mcb_init_done_i => calib_done, cmp_error => p0_error, run_traffic_o => p0_tg_run_traffic, start_addr_o => p0_tg_start_addr, end_addr_o => p0_tg_end_addr , cmd_seed_o => p0_tg_cmd_seed , data_seed_o => p0_tg_data_seed , load_seed_o => p0_tg_load_seed , addr_mode_o => p0_tg_addr_mode , instr_mode_o => p0_tg_instr_mode , bl_mode_o => p0_tg_bl_mode , data_mode_o => p0_tg_data_mode , mode_load_o => p0_tg_mode_load , fixed_bl_o => p0_tg_fixed_bl , fixed_instr_o => p0_tg_fixed_instr, fixed_addr_o => p0_tg_fixed_addr ); m_traffic_gen_p0 : mcb_traffic_gen generic map( MEM_BURST_LEN => C_MEM_BURST_LEN, MEM_COL_WIDTH => C_MEM_NUM_COL_BITS, NUM_DQ_PINS => C_NUM_DQ_PINS, DQ_ERROR_WIDTH => DQ_ERROR_WIDTH, PORT_MODE => p0_PORT_MODE, DWIDTH => p0_DWIDTH, CMP_DATA_PIPE_STAGES => CMP_DATA_PIPE_STAGES, FAMILY => FAMILY, SIMULATION => "FALSE", DATA_PATTERN => DATA_PATTERN, CMD_PATTERN => "CGEN_ALL", ADDR_WIDTH => 30, PRBS_SADDR_MASK_POS => C_p0_PRBS_SADDR_MASK_POS, PRBS_EADDR_MASK_POS => C_p0_PRBS_EADDR_MASK_POS, PRBS_SADDR => C_p0_BEGIN_ADDRESS, PRBS_EADDR => C_p0_END_ADDRESS ) port map ( clk_i => clk0, rst_i => rst0, run_traffic_i => p0_tg_run_traffic, manual_clear_error => rst0, -- runtime parameter start_addr_i => p0_tg_start_addr , end_addr_i => p0_tg_end_addr , cmd_seed_i => p0_tg_cmd_seed , data_seed_i => p0_tg_data_seed , load_seed_i => p0_tg_load_seed, addr_mode_i => p0_tg_addr_mode, instr_mode_i => p0_tg_instr_mode , bl_mode_i => p0_tg_bl_mode , data_mode_i => p0_tg_data_mode , mode_load_i => p0_tg_mode_load , -- fixed pattern inputs interface fixed_bl_i => p0_tg_fixed_bl, fixed_instr_i => p0_tg_fixed_instr, fixed_addr_i => p0_tg_fixed_addr, fixed_data_i => (others => '0'), -- BRAM interface. bram_cmd_i => (others => '0'), bram_valid_i => '0', bram_rdy_o => open, -- MCB INTERFACE mcb_cmd_en_o => p0_mcb_cmd_en_o_int, mcb_cmd_instr_o => p0_mcb_cmd_instr_o_int, mcb_cmd_bl_o => p0_mcb_cmd_bl_o_int, mcb_cmd_addr_o => p0_mcb_cmd_addr_o_int, mcb_cmd_full_i => p0_mcb_cmd_full_i, mcb_wr_en_o => p0_mcb_wr_en_o_int, mcb_wr_mask_o => p0_mcb_wr_mask_o, mcb_wr_data_o => p0_mcb_wr_data_o, mcb_wr_data_end_o => open, mcb_wr_full_i => p0_mcb_wr_full_i, mcb_wr_fifo_counts => p0_mcb_wr_fifo_counts, mcb_rd_en_o => p0_mcb_rd_en_o, mcb_rd_data_i => p0_mcb_rd_data_i, mcb_rd_empty_i => p0_mcb_rd_empty_i, mcb_rd_fifo_counts => p0_mcb_rd_fifo_counts, -- status feedback counts_rst => rst0, wr_data_counts => open, rd_data_counts => open, cmp_data => p0_cmp_data, cmp_data_valid => p0_cmp_data_valid, cmp_error => p0_cmp_error, error => p0_error, error_status => p0_error_status, mem_rd_data => open, dq_error_bytelane_cmp => open, cumlative_dq_lane_error => open ); end architecture;
library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.ALL; use work.picpkg.all; entity alu is Port ( a : in STD_LOGIC_VECTOR (7 downto 0); b : in STD_LOGIC_VECTOR (7 downto 0); ctrl : in alu_ctrl; bit_clr_set : in std_logic; bit_sel : in std_logic_vector(2 downto 0); status_c : in std_logic; r : out STD_LOGIC_VECTOR (7 downto 0); z : out STD_LOGIC; c : out STD_LOGIC; dc : out STD_LOGIC); end alu; -- Main computing unit of the microprocessor. -- a and b are inputs, others are control signals -- cit_clr_set if instr(10), it's 0 for bit clear and 1 for bit set -- using this signal decrease amount of ctrl signals when clear and set -- can be combined to one control signal -- bit_sel is bit selection for bit set and clear instructions -- status_c is current carry flag, used for shfits -- r = result -- flags: z = zero, c = carry, dc = digit carry (used for BCD) architecture Behavioral of alu is signal adder_a, adder_b : std_logic_vector(7 downto 0); signal adder_r : std_logic_vector(8 downto 0); begin process(adder_a, adder_b) variable add_low : std_logic_vector(4 downto 0); begin add_low := std_logic_vector(unsigned('0'&adder_a(3 downto 0)) + unsigned('0'&adder_b(3 downto 0))); dc <= add_low(4); --adder_r <= std_logic_vector(unsigned(adder_a(7 downto 4))&to_unsigned(0,4) -- +unsigned(adder_b(7 downto 4))&to_unsigned(0,4) -- +to_unsigned(0,3)&unsigned(add_low)); adder_r <= std_logic_vector(unsigned('0'&adder_a)+unsigned('0'&adder_b)); end process; process(a, b, ctrl, bit_clr_set, status_c, adder_r) variable tmp : std_logic_vector(8 downto 0); begin -- Default values tmp := '0'&a; z <= '0'; c <= '0'; adder_a <= "--------"; adder_b <= "--------"; case ctrl is when A_PASSA => -- PASS A tmp := "0"&a; when A_ADD => --ADD adder_a <= a; adder_b <= b; tmp := adder_r; when A_SUBAB => -- SUB A-B adder_a <= a; adder_b <= std_logic_vector(unsigned(not b) +1); tmp := adder_r; when A_AND => -- AND tmp := '0'&(a and b); when A_OR => -- OR tmp := '0'&(a or b); when A_XOR => -- XOR tmp := '0'&(a xor b); when A_NOTA => -- NOT A tmp := '0'&(not A); when A_BITSET => -- Set bit 'bit_sel' of A to 'bit_clr_set' for I in 0 to 7 loop if to_integer(unsigned(bit_sel)) = I then if I = 7 then tmp := '0'&bit_clr_set&a(6 downto 0); elsif I = 0 then tmp := '0'&a(7 downto 1)&bit_clr_set; else tmp := '0'&a(7 downto I+1)&bit_clr_set&a(I-1 downto 0); end if; end if; end loop; when A_BITTST => -- Test if bit 'bit_sel' of A is 'bit_clr_set' for I in 0 to 7 loop if to_integer(unsigned(bit_sel)) = I then z <= (bit_clr_set xnor a(I)); -- Equals end if; end loop; when A_SWAPA => -- Swap nibbles in A tmp := '0'&a(3 downto 0)&a(7 downto 4); when A_RLFA => -- Rotate A left through carry tmp := '0'&a(6 downto 0)&status_c; c <= a(7); when A_RRFA => -- Rotate A right through carry tmp := '0'&status_c&a(7 downto 1); c <= a(0); when others => tmp := "---------"; z <= '-'; c <= '-'; end case; -- Z-flag if ctrl /= A_BITTST then if unsigned(tmp(7 downto 0)) = 0 then z <= '1'; else z <= '0'; end if; end if; if ctrl /= A_RLFA or ctrl /= A_RRFA then c <= adder_r(8); end if; -- Set output r <= tmp(7 downto 0); end process; end Behavioral;
architecture ARCH of ENTITY is begin -- Passing PROC_2 : process (a) is begin a <= b or -- c = '2'; c or d = '1'; c1 <= d; e12 <= f and g and h or i and j; case CASE_LOGIC is when a = 1 => a <= b or c and d = '1'; when b = 1 => if a = 1 then c12 <= d or e or f and g; e1 <= f and x or y; end if; end case; a <= b; end process PROC_2; -- Violations PROC_2 : process (a) is begin a <= b or -- c = '2'; c or d = '1'; c1 <= d; e12 <= f and g and h or i and j; case CASE_LOGIC is when a = 1 => a <= b or c and d = '1'; when b = 1 => if a = 1 then c12 <= d or e or f and g; e1 <= f and x or y; end if; end case; a <= b; end process PROC_2; end architecture ARCH;
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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block tIRCJBwrqw861TllYkYZisN+3Hf+P2JXRGH4rS3/mIyKaeRa8ciKvXh+DuDwE0CQ8FK1JKt0o7Wy 5niCab0pNdgMIWoeJTN4M3Yv3mIYHhxe/uhUY+qL9dbTdi1peu0ypGwB+pCVAaCMnYsMP87ovoxG mFxz/aWHoq6z5hUiOqs/8QctFGTu5uGrqo/fDpwnQByfUDzc5kOGUXom+7Ix+u0CBnUzxUPMVE8H FW15FWlEhZ2/WOv5odw8POvTaQir1St/I4TCBaM8Ne779Z1F4E4v1nyrImWHcYGt30Ex/kdASWup x0rIb4g/F4zfpMwk2F9PI0IRzfsxsXBx1PSZmQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block vDR9iZfmcKoc03DxzsUkjAUcoXZpLGp+jz9oB+bhIzk9fA1B+YkBJ4B6wGhxOSVsIGzj0A/2+sve cYv4/y/PnMWoVJu5GAXMXsNWS0+yhRlFm65eqZTnif9T4BQLUfDB3Poe8t8+8qJraoiNha1dShh9 FtnafnjfaWlgFCK4DSo= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block P5OVsGiC3k02pbA8zjICborh5BXFBySD3cMhIIsNr8DZdx+UrjbiVbqZMU9Ry3hJ/1iX0Q8zDyFo 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block tIRCJBwrqw861TllYkYZisN+3Hf+P2JXRGH4rS3/mIyKaeRa8ciKvXh+DuDwE0CQ8FK1JKt0o7Wy 5niCab0pNdgMIWoeJTN4M3Yv3mIYHhxe/uhUY+qL9dbTdi1peu0ypGwB+pCVAaCMnYsMP87ovoxG mFxz/aWHoq6z5hUiOqs/8QctFGTu5uGrqo/fDpwnQByfUDzc5kOGUXom+7Ix+u0CBnUzxUPMVE8H FW15FWlEhZ2/WOv5odw8POvTaQir1St/I4TCBaM8Ne779Z1F4E4v1nyrImWHcYGt30Ex/kdASWup x0rIb4g/F4zfpMwk2F9PI0IRzfsxsXBx1PSZmQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block vDR9iZfmcKoc03DxzsUkjAUcoXZpLGp+jz9oB+bhIzk9fA1B+YkBJ4B6wGhxOSVsIGzj0A/2+sve cYv4/y/PnMWoVJu5GAXMXsNWS0+yhRlFm65eqZTnif9T4BQLUfDB3Poe8t8+8qJraoiNha1dShh9 FtnafnjfaWlgFCK4DSo= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block P5OVsGiC3k02pbA8zjICborh5BXFBySD3cMhIIsNr8DZdx+UrjbiVbqZMU9Ry3hJ/1iX0Q8zDyFo 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block tIRCJBwrqw861TllYkYZisN+3Hf+P2JXRGH4rS3/mIyKaeRa8ciKvXh+DuDwE0CQ8FK1JKt0o7Wy 5niCab0pNdgMIWoeJTN4M3Yv3mIYHhxe/uhUY+qL9dbTdi1peu0ypGwB+pCVAaCMnYsMP87ovoxG mFxz/aWHoq6z5hUiOqs/8QctFGTu5uGrqo/fDpwnQByfUDzc5kOGUXom+7Ix+u0CBnUzxUPMVE8H FW15FWlEhZ2/WOv5odw8POvTaQir1St/I4TCBaM8Ne779Z1F4E4v1nyrImWHcYGt30Ex/kdASWup x0rIb4g/F4zfpMwk2F9PI0IRzfsxsXBx1PSZmQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block vDR9iZfmcKoc03DxzsUkjAUcoXZpLGp+jz9oB+bhIzk9fA1B+YkBJ4B6wGhxOSVsIGzj0A/2+sve cYv4/y/PnMWoVJu5GAXMXsNWS0+yhRlFm65eqZTnif9T4BQLUfDB3Poe8t8+8qJraoiNha1dShh9 FtnafnjfaWlgFCK4DSo= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block P5OVsGiC3k02pbA8zjICborh5BXFBySD3cMhIIsNr8DZdx+UrjbiVbqZMU9Ry3hJ/1iX0Q8zDyFo 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block tIRCJBwrqw861TllYkYZisN+3Hf+P2JXRGH4rS3/mIyKaeRa8ciKvXh+DuDwE0CQ8FK1JKt0o7Wy 5niCab0pNdgMIWoeJTN4M3Yv3mIYHhxe/uhUY+qL9dbTdi1peu0ypGwB+pCVAaCMnYsMP87ovoxG mFxz/aWHoq6z5hUiOqs/8QctFGTu5uGrqo/fDpwnQByfUDzc5kOGUXom+7Ix+u0CBnUzxUPMVE8H FW15FWlEhZ2/WOv5odw8POvTaQir1St/I4TCBaM8Ne779Z1F4E4v1nyrImWHcYGt30Ex/kdASWup x0rIb4g/F4zfpMwk2F9PI0IRzfsxsXBx1PSZmQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block vDR9iZfmcKoc03DxzsUkjAUcoXZpLGp+jz9oB+bhIzk9fA1B+YkBJ4B6wGhxOSVsIGzj0A/2+sve cYv4/y/PnMWoVJu5GAXMXsNWS0+yhRlFm65eqZTnif9T4BQLUfDB3Poe8t8+8qJraoiNha1dShh9 FtnafnjfaWlgFCK4DSo= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block P5OVsGiC3k02pbA8zjICborh5BXFBySD3cMhIIsNr8DZdx+UrjbiVbqZMU9Ry3hJ/1iX0Q8zDyFo 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block tIRCJBwrqw861TllYkYZisN+3Hf+P2JXRGH4rS3/mIyKaeRa8ciKvXh+DuDwE0CQ8FK1JKt0o7Wy 5niCab0pNdgMIWoeJTN4M3Yv3mIYHhxe/uhUY+qL9dbTdi1peu0ypGwB+pCVAaCMnYsMP87ovoxG mFxz/aWHoq6z5hUiOqs/8QctFGTu5uGrqo/fDpwnQByfUDzc5kOGUXom+7Ix+u0CBnUzxUPMVE8H FW15FWlEhZ2/WOv5odw8POvTaQir1St/I4TCBaM8Ne779Z1F4E4v1nyrImWHcYGt30Ex/kdASWup x0rIb4g/F4zfpMwk2F9PI0IRzfsxsXBx1PSZmQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block vDR9iZfmcKoc03DxzsUkjAUcoXZpLGp+jz9oB+bhIzk9fA1B+YkBJ4B6wGhxOSVsIGzj0A/2+sve cYv4/y/PnMWoVJu5GAXMXsNWS0+yhRlFm65eqZTnif9T4BQLUfDB3Poe8t8+8qJraoiNha1dShh9 FtnafnjfaWlgFCK4DSo= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block P5OVsGiC3k02pbA8zjICborh5BXFBySD3cMhIIsNr8DZdx+UrjbiVbqZMU9Ry3hJ/1iX0Q8zDyFo 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block OHeaBmhw2WWXga/8pOVTMIzcYutI6Mhna2kzvZmeKvttg8GRcsMBDXpogvkdmdxp1KLLzWXMAKSV fUAOBPVAvg== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ao3tKAmGrk9jDIJ5tmEl5p3MIRphIc7Vg/SqO4TER/rFDRMS3J83CwQ2b9YFrnde65FSvizCvsTV 0Knxkw8zoIma+TSgIxOnivhI3WBhgKeA2uGkUI4h7aI3JKyXt+ar8rATgfMIjtkwwZmXnAQdFAm/ DhnKD9KmESp1ihQZWxM= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block tIRCJBwrqw861TllYkYZisN+3Hf+P2JXRGH4rS3/mIyKaeRa8ciKvXh+DuDwE0CQ8FK1JKt0o7Wy 5niCab0pNdgMIWoeJTN4M3Yv3mIYHhxe/uhUY+qL9dbTdi1peu0ypGwB+pCVAaCMnYsMP87ovoxG mFxz/aWHoq6z5hUiOqs/8QctFGTu5uGrqo/fDpwnQByfUDzc5kOGUXom+7Ix+u0CBnUzxUPMVE8H FW15FWlEhZ2/WOv5odw8POvTaQir1St/I4TCBaM8Ne779Z1F4E4v1nyrImWHcYGt30Ex/kdASWup x0rIb4g/F4zfpMwk2F9PI0IRzfsxsXBx1PSZmQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block vDR9iZfmcKoc03DxzsUkjAUcoXZpLGp+jz9oB+bhIzk9fA1B+YkBJ4B6wGhxOSVsIGzj0A/2+sve cYv4/y/PnMWoVJu5GAXMXsNWS0+yhRlFm65eqZTnif9T4BQLUfDB3Poe8t8+8qJraoiNha1dShh9 FtnafnjfaWlgFCK4DSo= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block P5OVsGiC3k02pbA8zjICborh5BXFBySD3cMhIIsNr8DZdx+UrjbiVbqZMU9Ry3hJ/1iX0Q8zDyFo 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-----LIBRARIES----- library ieee; use ieee.std_logic_1164.all; -----ENTITY----- entity bin2sevenseg is port (bin : in std_logic_vector(3 downto 0); seg : out std_logic_vector(6 downto 0) ); end bin2sevenseg; architecture Test of bin2sevenseg is begin with bin select seg <= "1000000" when "0000", -- 0 "1111001" when "0001", -- 1 "0100100" when "0010", -- 2 "0110000" when "0011", -- 3 "0011001" when "0100", -- 4 "0010010" when "0101", -- 5 "0000010" when "0110", -- 6 "1111000" when "0111", -- 7 "0000000" when "1000", -- 8 "0011000" when "1001", -- 9 "0001000" when "1010", -- A "0000011" when "1011", -- b "1000110" when "1100", -- C "0100001" when "1101", -- d "0000110" when "1110", -- E "0001110" when "1111", -- F "1111111" when others; end Test;
-- EMACS settings: -- tab-width: 2; indent-tabs-mode: t -- -- vim: tabstop=2:shiftwidth=2:noexpandtab -- kate: tab-width 2; replace-tabs off; indent-width 2; -- ============================================================================= -- Authors: Patrick Lehmann -- -- Package: File I/O-related Functions. -- -- Description: -- ------------------------------------- -- .. TODO:: No documentation available. -- -- License: -- ============================================================================= -- Copyright 2007-2016 Technische Universitaet Dresden - Germany, -- Chair of VLSI-Design, Diagnostics and Architecture -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. -- ============================================================================= use STD.TextIO.all; library PoC; use PoC.my_project.all; use PoC.utils.all; use PoC.strings.all; use PoC.ProtectedTypes.all; package FileIO is subtype T_LOGFILE_OPEN_KIND is FILE_OPEN_KIND range WRITE_MODE to APPEND_MODE; -- Constant declarations constant C_LINEBREAK : string; -- =========================================================================== type T_LOGFILE is protected procedure OpenFile(FileName : string; OpenKind : T_LOGFILE_OPEN_KIND := WRITE_MODE); impure function OpenFile(FileName : string; OpenKind : T_LOGFILE_OPEN_KIND := WRITE_MODE) return FILE_OPEN_STATUS; procedure OpenFile(Status : out FILE_OPEN_STATUS; FileName : string; OpenKind : T_LOGFILE_OPEN_KIND := WRITE_MODE); impure function IsOpen return boolean; procedure CloseFile; procedure Print(str : string); procedure PrintLine(str : string := ""); procedure Flush; -- procedure WriteLine(LineBuffer : inout LINE); end protected; -- =========================================================================== type T_FILE is protected procedure OpenFile(FileName : string; OpenKind : FILE_OPEN_KIND := WRITE_MODE); impure function OpenFile(FileName : string; OpenKind : FILE_OPEN_KIND := WRITE_MODE) return FILE_OPEN_STATUS; procedure OpenFile(Status : out FILE_OPEN_STATUS; FileName : string; OpenKind : FILE_OPEN_KIND := WRITE_MODE); impure function IsOpen return boolean; procedure CloseFile; procedure Print(str : string); procedure PrintLine(str : string := ""); procedure Flush; -- procedure WriteLine(LineBuffer : inout LINE); end protected; type T_STDOUT is protected procedure Print(str : string); procedure PrintLine(str : string := ""); procedure Flush; end protected; end package; package body FileIO is constant C_LINEBREAK : string := ite(str_equal(MY_OPERATING_SYSTEM, "WINDOWS"), (CR & LF), (1 => LF)); -- =========================================================================== file Global_LogFile : TEXT; -- shared variable LogFile_IsOpen : P_BOOLEAN; -- shared variable LogFile : T_LOGFILE; -- shared variable StdOut : T_STDOUT; -- shared variable LogFile_IsMirrored : P_BOOLEAN; -- =========================================================================== type T_LOGFILE is protected body variable LineBuffer : LINE; variable Local_IsOpen : boolean; variable Local_FileName : string(1 to 256); procedure OpenFile(FileName : string; OpenKind : T_LOGFILE_OPEN_KIND := WRITE_MODE) is variable Status : FILE_OPEN_STATUS; begin OpenFile(Status, FileName, OpenKind); end procedure; impure function OpenFile(FileName : string; OpenKind : T_LOGFILE_OPEN_KIND := WRITE_MODE) return FILE_OPEN_STATUS is variable Status : FILE_OPEN_STATUS; begin OpenFile(Status, FileName, OpenKind); return Status; end function; procedure OpenFile(Status : out FILE_OPEN_STATUS; FileName : string; OpenKind : T_LOGFILE_OPEN_KIND := WRITE_MODE) is variable Status_i : FILE_OPEN_STATUS; begin if not Local_IsOpen then file_open(Status_i, Global_LogFile, FileName, OpenKind); Local_IsOpen := Status_i = OPEN_OK; Local_FileName := resize(FileName, Local_FileName'length); Status := Status_i; else report "Global log file '" & str_trim(Local_FileName) & "' is already open." severity ERROR; end if; end procedure; impure function IsOpen return boolean is begin return Local_IsOpen; end function; procedure CloseFile is begin if Local_IsOpen then file_close(Global_LogFile); Local_IsOpen := FALSE; end if; end procedure; procedure WriteLine(LineBuffer : inout LINE) is begin if not Local_IsOpen then writeline(OUTPUT, LineBuffer); -- elsif (LogFile_IsMirrored.Get = TRUE) then -- tee(Global_LogFile, LineBuffer); else writeline(Global_LogFile, LineBuffer); end if ; end procedure; procedure Print(str : string) is begin write(LineBuffer, str); end procedure; procedure PrintLine(str : string := "") is begin write(LineBuffer, str); WriteLine(LineBuffer); end procedure; procedure Flush is begin WriteLine(LineBuffer); end procedure; end protected body; type T_FILE is protected body file LocalFile : TEXT; variable LineBuffer : LINE; variable Local_IsOpen : boolean; variable Local_FileName : string(1 to 256); procedure OpenFile(FileName : string; OpenKind : FILE_OPEN_KIND := WRITE_MODE) is variable Status : FILE_OPEN_STATUS; begin OpenFile(Status, FileName, OpenKind); end procedure; impure function OpenFile(FileName : string; OpenKind : FILE_OPEN_KIND := WRITE_MODE) return FILE_OPEN_STATUS is variable Status : FILE_OPEN_STATUS; begin OpenFile(Status, FileName, OpenKind); return Status; end function; impure function IsOpen return boolean is begin return Local_IsOpen; end function; procedure OpenFile(Status : out FILE_OPEN_STATUS; FileName : string; OpenKind : FILE_OPEN_KIND := WRITE_MODE) is variable Status_i : FILE_OPEN_STATUS; begin if not Local_IsOpen then file_open(Status_i, LocalFile, FileName, OpenKind); Local_IsOpen := Status_i = OPEN_OK; Local_FileName := resize(FileName, Local_FileName'length); Status := Status_i; else report "File '" & str_trim(Local_FileName) & "' is already open." severity ERROR; end if; end procedure; procedure CloseFile is begin if Local_IsOpen then file_close(LocalFile); Local_IsOpen := FALSE; end if; end procedure; procedure WriteLine(LineBuffer : inout LINE) is begin if not Local_IsOpen then report "File is not open." severity ERROR; else writeline(LocalFile, LineBuffer); end if ; end procedure; procedure Print(str : string) is begin write(LineBuffer, str); end procedure; procedure PrintLine(str : string := "") is begin write(LineBuffer, str); WriteLine(LineBuffer); end procedure; procedure Flush is begin WriteLine(LineBuffer); end procedure; end protected body; type T_STDOUT is protected body variable LineBuffer : LINE; procedure Print(str : string) is begin write(LineBuffer, str); end procedure; procedure PrintLine(str : string := "") is begin write(LineBuffer, str); writeline(OUTPUT, LineBuffer); end procedure; procedure Flush is begin writeline(OUTPUT, LineBuffer); end procedure; end protected body; end package body;
-- -- RegisterMemory.vhd -- -- Copyright (c) 2006 Mitsutaka Okazaki (brezza@pokipoki.org) -- All rights reserved. -- -- Redistribution and use of this source code or any derivative works, are -- permitted provided that the following conditions are met: -- -- 1. Redistributions of source code must retain the above copyright notice, -- this list of conditions and the following disclaimer. -- 2. Redistributions in binary form must reproduce the above copyright -- notice, this list of conditions and the following disclaimer in the -- documentation and/or other materials provided with the distribution. -- 3. Redistributions may not be sold, nor may they be used in a commercial -- product or activity without specific prior written permission. -- -- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS -- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED -- TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR -- PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR -- CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, -- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, -- PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; -- OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, -- WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR -- OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF -- ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. -- -- -- -- modified by t.hara -- library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_unsigned.all; entity RegisterMemory is port ( clk : in std_logic; reset : in std_logic; addr : in std_logic_vector( 3 downto 0 ); wr : in std_logic; idata : in std_logic_vector( 23 downto 0 ); odata : out std_logic_vector( 23 downto 0 ) ); end entity; architecture rtl of registermemory is -- `lîñÛp 1read/1write Ì SRAM type regs_array_type is array (0 to 8) of std_logic_vector( 23 downto 0 ); signal regs_array : regs_array_type; signal mem_wr_s : std_logic; signal mem_addr_s : integer; signal mem_data_s : std_logic_vector( 23 downto 0 ); signal init_state : integer range 0 to 9; attribute ram_style : string; attribute ram_style of regs_array : signal is "block"; begin mem_addr_s <= init_state when init_state /= 9 else conv_integer(addr); mem_data_s <= (others => '0') when init_state /= 9 else idata; mem_wr_s <= '1' when init_state /= 9 else wr; process (reset, clk) begin if reset = '1' then init_state <= 0; elsif clk'event and clk ='1' then if mem_wr_s = '1' then -- «ÝTCN regs_array( mem_addr_s ) <= mem_data_s; end if; -- ÇÝoµÍí odata <= regs_array( conv_integer(addr) ); if init_state /= 9 then init_state <= init_state + 1; end if; end if; end process; end architecture;
`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block X9k9kMjUfSr7WyoqWFsWsDNcEiuLtqHTCUAGwDZLSKE207a75WonvNNUDmhBO1uz+XULTxinDmmZ GT643eOIIQ== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block fdnXczTF7qIbl5SijJBkB154JKQr02vtVlHSy9DNdjdjXT7gGI7iVyunOxkDela6yvkq8Cx/2G0n E0e28FZrRvaCEgIzO0L7EaMLzF6OlVupowu5EXneSrN+R8Nc4c7Vyz+thZByoAfPqk5i0XkYJKmd XGKp7hQQAl3w6oimNxU= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block X9k9kMjUfSr7WyoqWFsWsDNcEiuLtqHTCUAGwDZLSKE207a75WonvNNUDmhBO1uz+XULTxinDmmZ GT643eOIIQ== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block fdnXczTF7qIbl5SijJBkB154JKQr02vtVlHSy9DNdjdjXT7gGI7iVyunOxkDela6yvkq8Cx/2G0n E0e28FZrRvaCEgIzO0L7EaMLzF6OlVupowu5EXneSrN+R8Nc4c7Vyz+thZByoAfPqk5i0XkYJKmd XGKp7hQQAl3w6oimNxU= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 0jUieClEs2kiDDJ7Jsra850e/3VLFIvNPjyAdFywILXGvkfJ/Hsc6WG68GNMAswNl/pNodIuC2f/ kxwjHK+i0zjOCuv6Th2jBcFfHhsGlq55Zq9/pmcFhddg/XqrBo6nEZ08d9ExO3LuQLohdFsMVY5Z WVi9OEQ8PtWUNmHj7H8YgBtq1sdKwrUAzcEegFEFaamWZ8cRLH+p6Q8JyelxqcH1mOvbYspjSqOn XYI+E647FJ0I59mCsMTj7UrbGvveT3M9JWrJWEFf2igu9YQnsYnNMoYEIyI0u7vClxcnjkERtDoI Qzg/YV+QfY2buN5Vo2FidHhaVUO4vKadHsK0jQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block P9/DoPFONGyZrv7atEKjrpkdVAn/ceBdIHR8IzNkA8pgkGpM8tu2bn4JV1JL5imFKxR2hvSQIX05 PGgBOrUOs+t7XxYgrrw+SUdKcJwKsJuosPRse/3QjyvW+DgoyBIGHCMYeh8JLluPsjOvJL8nnduY uXr4YPgP66QaJxpRpWs= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block KpQrKeDvYGCfqYHg+HTMJiaAMJ9JMuGupLPHlsGeN0FJ2O9sJ1YA50vBVxPKOsP1JEQWrnt/wUpG 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block X9k9kMjUfSr7WyoqWFsWsDNcEiuLtqHTCUAGwDZLSKE207a75WonvNNUDmhBO1uz+XULTxinDmmZ GT643eOIIQ== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block fdnXczTF7qIbl5SijJBkB154JKQr02vtVlHSy9DNdjdjXT7gGI7iVyunOxkDela6yvkq8Cx/2G0n E0e28FZrRvaCEgIzO0L7EaMLzF6OlVupowu5EXneSrN+R8Nc4c7Vyz+thZByoAfPqk5i0XkYJKmd XGKp7hQQAl3w6oimNxU= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block X9k9kMjUfSr7WyoqWFsWsDNcEiuLtqHTCUAGwDZLSKE207a75WonvNNUDmhBO1uz+XULTxinDmmZ GT643eOIIQ== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block fdnXczTF7qIbl5SijJBkB154JKQr02vtVlHSy9DNdjdjXT7gGI7iVyunOxkDela6yvkq8Cx/2G0n E0e28FZrRvaCEgIzO0L7EaMLzF6OlVupowu5EXneSrN+R8Nc4c7Vyz+thZByoAfPqk5i0XkYJKmd XGKp7hQQAl3w6oimNxU= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block X9k9kMjUfSr7WyoqWFsWsDNcEiuLtqHTCUAGwDZLSKE207a75WonvNNUDmhBO1uz+XULTxinDmmZ GT643eOIIQ== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block fdnXczTF7qIbl5SijJBkB154JKQr02vtVlHSy9DNdjdjXT7gGI7iVyunOxkDela6yvkq8Cx/2G0n E0e28FZrRvaCEgIzO0L7EaMLzF6OlVupowu5EXneSrN+R8Nc4c7Vyz+thZByoAfPqk5i0XkYJKmd XGKp7hQQAl3w6oimNxU= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2013" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block X9k9kMjUfSr7WyoqWFsWsDNcEiuLtqHTCUAGwDZLSKE207a75WonvNNUDmhBO1uz+XULTxinDmmZ GT643eOIIQ== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block fdnXczTF7qIbl5SijJBkB154JKQr02vtVlHSy9DNdjdjXT7gGI7iVyunOxkDela6yvkq8Cx/2G0n E0e28FZrRvaCEgIzO0L7EaMLzF6OlVupowu5EXneSrN+R8Nc4c7Vyz+thZByoAfPqk5i0XkYJKmd XGKp7hQQAl3w6oimNxU= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2013_09", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block 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-------------------------------------------------------------------------- -- -- Copyright (c) 1990, 1991, 1992 by Synopsys, Inc. All rights reserved. -- -- This source file may be used and distributed without restriction -- provided that this copyright statement is not removed from the file -- and that any derivative work contains this copyright notice. -- -- Package name: std_logic_misc -- -- Purpose: This package defines supplemental types, subtypes, -- constants, and functions for the Std_logic_1164 Package. -- -- Author: GWH -- -------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.all; --library SYNOPSYS; --use SYNOPSYS.attributes.all; package std_logic_misc is -- output-strength types type STRENGTH is (strn_X01, strn_X0H, strn_XL1, strn_X0Z, strn_XZ1, strn_WLH, strn_WLZ, strn_WZH, strn_W0H, strn_WL1); --synopsys synthesis_off type MINOMAX is array (1 to 3) of TIME; --------------------------------------------------------------------- -- -- functions for mapping the STD_(U)LOGIC according to STRENGTH -- --------------------------------------------------------------------- function strength_map(input: STD_ULOGIC; strn: STRENGTH) return STD_LOGIC; function strength_map_z(input:STD_ULOGIC; strn:STRENGTH) return STD_LOGIC; --------------------------------------------------------------------- -- -- conversion functions for STD_ULOGIC_VECTOR and STD_LOGIC_VECTOR -- --------------------------------------------------------------------- --synopsys synthesis_on function Drive (V: STD_ULOGIC_VECTOR) return STD_LOGIC_VECTOR; function Drive (V: STD_LOGIC_VECTOR) return STD_ULOGIC_VECTOR; --synopsys synthesis_off --attribute CLOSELY_RELATED_TCF of Drive: function is TRUE; --------------------------------------------------------------------- -- -- conversion functions for sensing various types -- (the second argument allows the user to specify the value to -- be returned when the network is undriven) -- --------------------------------------------------------------------- function Sense (V: STD_ULOGIC; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC; function Sense (V: STD_ULOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC_VECTOR; function Sense (V: STD_ULOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_ULOGIC_VECTOR; function Sense (V: STD_LOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC_VECTOR; function Sense (V: STD_LOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_ULOGIC_VECTOR; --synopsys synthesis_on --------------------------------------------------------------------- -- -- Function: STD_LOGIC_VECTORtoBIT_VECTOR STD_ULOGIC_VECTORtoBIT_VECTOR -- -- Purpose: Conversion fun. from STD_(U)LOGIC_VECTOR to BIT_VECTOR -- -- Mapping: 0, L --> 0 -- 1, H --> 1 -- X, W --> vX if Xflag is TRUE -- X, W --> 0 if Xflag is FALSE -- Z --> vZ if Zflag is TRUE -- Z --> 0 if Zflag is FALSE -- U --> vU if Uflag is TRUE -- U --> 0 if Uflag is FALSE -- - --> vDC if DCflag is TRUE -- - --> 0 if DCflag is FALSE -- --------------------------------------------------------------------- function STD_LOGIC_VECTORtoBIT_VECTOR (V: STD_LOGIC_VECTOR --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT_VECTOR; function STD_ULOGIC_VECTORtoBIT_VECTOR (V: STD_ULOGIC_VECTOR --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT_VECTOR; --------------------------------------------------------------------- -- -- Function: STD_ULOGICtoBIT -- -- Purpose: Conversion function from STD_(U)LOGIC to BIT -- -- Mapping: 0, L --> 0 -- 1, H --> 1 -- X, W --> vX if Xflag is TRUE -- X, W --> 0 if Xflag is FALSE -- Z --> vZ if Zflag is TRUE -- Z --> 0 if Zflag is FALSE -- U --> vU if Uflag is TRUE -- U --> 0 if Uflag is FALSE -- - --> vDC if DCflag is TRUE -- - --> 0 if DCflag is FALSE -- --------------------------------------------------------------------- function STD_ULOGICtoBIT (V: STD_ULOGIC --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT; -------------------------------------------------------------------- function AND_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function NAND_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function OR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function NOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function XOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function XNOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function AND_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function NAND_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function OR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function NOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function XOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function XNOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; --synopsys synthesis_off function fun_BUF3S(Input, Enable: UX01; Strn: STRENGTH) return STD_LOGIC; function fun_BUF3SL(Input, Enable: UX01; Strn: STRENGTH) return STD_LOGIC; function fun_MUX2x1(Input0, Input1, Sel: UX01) return UX01; function fun_MAJ23(Input0, Input1, Input2: UX01) return UX01; function fun_WiredX(Input0, Input1: std_ulogic) return STD_LOGIC; --synopsys synthesis_on end;
-------------------------------------------------------------------------- -- -- Copyright (c) 1990, 1991, 1992 by Synopsys, Inc. All rights reserved. -- -- This source file may be used and distributed without restriction -- provided that this copyright statement is not removed from the file -- and that any derivative work contains this copyright notice. -- -- Package name: std_logic_misc -- -- Purpose: This package defines supplemental types, subtypes, -- constants, and functions for the Std_logic_1164 Package. -- -- Author: GWH -- -------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.all; --library SYNOPSYS; --use SYNOPSYS.attributes.all; package std_logic_misc is -- output-strength types type STRENGTH is (strn_X01, strn_X0H, strn_XL1, strn_X0Z, strn_XZ1, strn_WLH, strn_WLZ, strn_WZH, strn_W0H, strn_WL1); --synopsys synthesis_off type MINOMAX is array (1 to 3) of TIME; --------------------------------------------------------------------- -- -- functions for mapping the STD_(U)LOGIC according to STRENGTH -- --------------------------------------------------------------------- function strength_map(input: STD_ULOGIC; strn: STRENGTH) return STD_LOGIC; function strength_map_z(input:STD_ULOGIC; strn:STRENGTH) return STD_LOGIC; --------------------------------------------------------------------- -- -- conversion functions for STD_ULOGIC_VECTOR and STD_LOGIC_VECTOR -- --------------------------------------------------------------------- --synopsys synthesis_on function Drive (V: STD_ULOGIC_VECTOR) return STD_LOGIC_VECTOR; function Drive (V: STD_LOGIC_VECTOR) return STD_ULOGIC_VECTOR; --synopsys synthesis_off --attribute CLOSELY_RELATED_TCF of Drive: function is TRUE; --------------------------------------------------------------------- -- -- conversion functions for sensing various types -- (the second argument allows the user to specify the value to -- be returned when the network is undriven) -- --------------------------------------------------------------------- function Sense (V: STD_ULOGIC; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC; function Sense (V: STD_ULOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC_VECTOR; function Sense (V: STD_ULOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_ULOGIC_VECTOR; function Sense (V: STD_LOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC_VECTOR; function Sense (V: STD_LOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_ULOGIC_VECTOR; --synopsys synthesis_on --------------------------------------------------------------------- -- -- Function: STD_LOGIC_VECTORtoBIT_VECTOR STD_ULOGIC_VECTORtoBIT_VECTOR -- -- Purpose: Conversion fun. from STD_(U)LOGIC_VECTOR to BIT_VECTOR -- -- Mapping: 0, L --> 0 -- 1, H --> 1 -- X, W --> vX if Xflag is TRUE -- X, W --> 0 if Xflag is FALSE -- Z --> vZ if Zflag is TRUE -- Z --> 0 if Zflag is FALSE -- U --> vU if Uflag is TRUE -- U --> 0 if Uflag is FALSE -- - --> vDC if DCflag is TRUE -- - --> 0 if DCflag is FALSE -- --------------------------------------------------------------------- function STD_LOGIC_VECTORtoBIT_VECTOR (V: STD_LOGIC_VECTOR --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT_VECTOR; function STD_ULOGIC_VECTORtoBIT_VECTOR (V: STD_ULOGIC_VECTOR --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT_VECTOR; --------------------------------------------------------------------- -- -- Function: STD_ULOGICtoBIT -- -- Purpose: Conversion function from STD_(U)LOGIC to BIT -- -- Mapping: 0, L --> 0 -- 1, H --> 1 -- X, W --> vX if Xflag is TRUE -- X, W --> 0 if Xflag is FALSE -- Z --> vZ if Zflag is TRUE -- Z --> 0 if Zflag is FALSE -- U --> vU if Uflag is TRUE -- U --> 0 if Uflag is FALSE -- - --> vDC if DCflag is TRUE -- - --> 0 if DCflag is FALSE -- --------------------------------------------------------------------- function STD_ULOGICtoBIT (V: STD_ULOGIC --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT; -------------------------------------------------------------------- function AND_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function NAND_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function OR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function NOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function XOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function XNOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function AND_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function NAND_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function OR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function NOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function XOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function XNOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; --synopsys synthesis_off function fun_BUF3S(Input, Enable: UX01; Strn: STRENGTH) return STD_LOGIC; function fun_BUF3SL(Input, Enable: UX01; Strn: STRENGTH) return STD_LOGIC; function fun_MUX2x1(Input0, Input1, Sel: UX01) return UX01; function fun_MAJ23(Input0, Input1, Input2: UX01) return UX01; function fun_WiredX(Input0, Input1: std_ulogic) return STD_LOGIC; --synopsys synthesis_on end;
-------------------------------------------------------------------------- -- -- Copyright (c) 1990, 1991, 1992 by Synopsys, Inc. All rights reserved. -- -- This source file may be used and distributed without restriction -- provided that this copyright statement is not removed from the file -- and that any derivative work contains this copyright notice. -- -- Package name: std_logic_misc -- -- Purpose: This package defines supplemental types, subtypes, -- constants, and functions for the Std_logic_1164 Package. -- -- Author: GWH -- -------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.all; --library SYNOPSYS; --use SYNOPSYS.attributes.all; package std_logic_misc is -- output-strength types type STRENGTH is (strn_X01, strn_X0H, strn_XL1, strn_X0Z, strn_XZ1, strn_WLH, strn_WLZ, strn_WZH, strn_W0H, strn_WL1); --synopsys synthesis_off type MINOMAX is array (1 to 3) of TIME; --------------------------------------------------------------------- -- -- functions for mapping the STD_(U)LOGIC according to STRENGTH -- --------------------------------------------------------------------- function strength_map(input: STD_ULOGIC; strn: STRENGTH) return STD_LOGIC; function strength_map_z(input:STD_ULOGIC; strn:STRENGTH) return STD_LOGIC; --------------------------------------------------------------------- -- -- conversion functions for STD_ULOGIC_VECTOR and STD_LOGIC_VECTOR -- --------------------------------------------------------------------- --synopsys synthesis_on function Drive (V: STD_ULOGIC_VECTOR) return STD_LOGIC_VECTOR; function Drive (V: STD_LOGIC_VECTOR) return STD_ULOGIC_VECTOR; --synopsys synthesis_off --attribute CLOSELY_RELATED_TCF of Drive: function is TRUE; --------------------------------------------------------------------- -- -- conversion functions for sensing various types -- (the second argument allows the user to specify the value to -- be returned when the network is undriven) -- --------------------------------------------------------------------- function Sense (V: STD_ULOGIC; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC; function Sense (V: STD_ULOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC_VECTOR; function Sense (V: STD_ULOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_ULOGIC_VECTOR; function Sense (V: STD_LOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC_VECTOR; function Sense (V: STD_LOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_ULOGIC_VECTOR; --synopsys synthesis_on --------------------------------------------------------------------- -- -- Function: STD_LOGIC_VECTORtoBIT_VECTOR STD_ULOGIC_VECTORtoBIT_VECTOR -- -- Purpose: Conversion fun. from STD_(U)LOGIC_VECTOR to BIT_VECTOR -- -- Mapping: 0, L --> 0 -- 1, H --> 1 -- X, W --> vX if Xflag is TRUE -- X, W --> 0 if Xflag is FALSE -- Z --> vZ if Zflag is TRUE -- Z --> 0 if Zflag is FALSE -- U --> vU if Uflag is TRUE -- U --> 0 if Uflag is FALSE -- - --> vDC if DCflag is TRUE -- - --> 0 if DCflag is FALSE -- --------------------------------------------------------------------- function STD_LOGIC_VECTORtoBIT_VECTOR (V: STD_LOGIC_VECTOR --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT_VECTOR; function STD_ULOGIC_VECTORtoBIT_VECTOR (V: STD_ULOGIC_VECTOR --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT_VECTOR; --------------------------------------------------------------------- -- -- Function: STD_ULOGICtoBIT -- -- Purpose: Conversion function from STD_(U)LOGIC to BIT -- -- Mapping: 0, L --> 0 -- 1, H --> 1 -- X, W --> vX if Xflag is TRUE -- X, W --> 0 if Xflag is FALSE -- Z --> vZ if Zflag is TRUE -- Z --> 0 if Zflag is FALSE -- U --> vU if Uflag is TRUE -- U --> 0 if Uflag is FALSE -- - --> vDC if DCflag is TRUE -- - --> 0 if DCflag is FALSE -- --------------------------------------------------------------------- function STD_ULOGICtoBIT (V: STD_ULOGIC --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT; -------------------------------------------------------------------- function AND_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function NAND_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function OR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function NOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function XOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function XNOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function AND_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function NAND_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function OR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function NOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function XOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function XNOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; --synopsys synthesis_off function fun_BUF3S(Input, Enable: UX01; Strn: STRENGTH) return STD_LOGIC; function fun_BUF3SL(Input, Enable: UX01; Strn: STRENGTH) return STD_LOGIC; function fun_MUX2x1(Input0, Input1, Sel: UX01) return UX01; function fun_MAJ23(Input0, Input1, Input2: UX01) return UX01; function fun_WiredX(Input0, Input1: std_ulogic) return STD_LOGIC; --synopsys synthesis_on end;
-------------------------------------------------------------------------- -- -- Copyright (c) 1990, 1991, 1992 by Synopsys, Inc. All rights reserved. -- -- This source file may be used and distributed without restriction -- provided that this copyright statement is not removed from the file -- and that any derivative work contains this copyright notice. -- -- Package name: std_logic_misc -- -- Purpose: This package defines supplemental types, subtypes, -- constants, and functions for the Std_logic_1164 Package. -- -- Author: GWH -- -------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.all; --library SYNOPSYS; --use SYNOPSYS.attributes.all; package std_logic_misc is -- output-strength types type STRENGTH is (strn_X01, strn_X0H, strn_XL1, strn_X0Z, strn_XZ1, strn_WLH, strn_WLZ, strn_WZH, strn_W0H, strn_WL1); --synopsys synthesis_off type MINOMAX is array (1 to 3) of TIME; --------------------------------------------------------------------- -- -- functions for mapping the STD_(U)LOGIC according to STRENGTH -- --------------------------------------------------------------------- function strength_map(input: STD_ULOGIC; strn: STRENGTH) return STD_LOGIC; function strength_map_z(input:STD_ULOGIC; strn:STRENGTH) return STD_LOGIC; --------------------------------------------------------------------- -- -- conversion functions for STD_ULOGIC_VECTOR and STD_LOGIC_VECTOR -- --------------------------------------------------------------------- --synopsys synthesis_on function Drive (V: STD_ULOGIC_VECTOR) return STD_LOGIC_VECTOR; function Drive (V: STD_LOGIC_VECTOR) return STD_ULOGIC_VECTOR; --synopsys synthesis_off --attribute CLOSELY_RELATED_TCF of Drive: function is TRUE; --------------------------------------------------------------------- -- -- conversion functions for sensing various types -- (the second argument allows the user to specify the value to -- be returned when the network is undriven) -- --------------------------------------------------------------------- function Sense (V: STD_ULOGIC; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC; function Sense (V: STD_ULOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC_VECTOR; function Sense (V: STD_ULOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_ULOGIC_VECTOR; function Sense (V: STD_LOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_LOGIC_VECTOR; function Sense (V: STD_LOGIC_VECTOR; vZ, vU, vDC: STD_ULOGIC) return STD_ULOGIC_VECTOR; --synopsys synthesis_on --------------------------------------------------------------------- -- -- Function: STD_LOGIC_VECTORtoBIT_VECTOR STD_ULOGIC_VECTORtoBIT_VECTOR -- -- Purpose: Conversion fun. from STD_(U)LOGIC_VECTOR to BIT_VECTOR -- -- Mapping: 0, L --> 0 -- 1, H --> 1 -- X, W --> vX if Xflag is TRUE -- X, W --> 0 if Xflag is FALSE -- Z --> vZ if Zflag is TRUE -- Z --> 0 if Zflag is FALSE -- U --> vU if Uflag is TRUE -- U --> 0 if Uflag is FALSE -- - --> vDC if DCflag is TRUE -- - --> 0 if DCflag is FALSE -- --------------------------------------------------------------------- function STD_LOGIC_VECTORtoBIT_VECTOR (V: STD_LOGIC_VECTOR --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT_VECTOR; function STD_ULOGIC_VECTORtoBIT_VECTOR (V: STD_ULOGIC_VECTOR --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT_VECTOR; --------------------------------------------------------------------- -- -- Function: STD_ULOGICtoBIT -- -- Purpose: Conversion function from STD_(U)LOGIC to BIT -- -- Mapping: 0, L --> 0 -- 1, H --> 1 -- X, W --> vX if Xflag is TRUE -- X, W --> 0 if Xflag is FALSE -- Z --> vZ if Zflag is TRUE -- Z --> 0 if Zflag is FALSE -- U --> vU if Uflag is TRUE -- U --> 0 if Uflag is FALSE -- - --> vDC if DCflag is TRUE -- - --> 0 if DCflag is FALSE -- --------------------------------------------------------------------- function STD_ULOGICtoBIT (V: STD_ULOGIC --synopsys synthesis_off ; vX, vZ, vU, vDC: BIT := '0'; Xflag, Zflag, Uflag, DCflag: BOOLEAN := FALSE --synopsys synthesis_on ) return BIT; -------------------------------------------------------------------- function AND_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function NAND_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function OR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function NOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function XOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function XNOR_REDUCE(ARG: STD_LOGIC_VECTOR) return UX01; function AND_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function NAND_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function OR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function NOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function XOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; function XNOR_REDUCE(ARG: STD_ULOGIC_VECTOR) return UX01; --synopsys synthesis_off function fun_BUF3S(Input, Enable: UX01; Strn: STRENGTH) return STD_LOGIC; function fun_BUF3SL(Input, Enable: UX01; Strn: STRENGTH) return STD_LOGIC; function fun_MUX2x1(Input0, Input1, Sel: UX01) return UX01; function fun_MAJ23(Input0, Input1, Input2: UX01) return UX01; function fun_WiredX(Input0, Input1: std_ulogic) return STD_LOGIC; --synopsys synthesis_on end;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc1785.vhd,v 1.2 2001-10-26 16:29:43 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- Package c09s06b00x00p04n07i01785pkg is type info is record field_1 : integer; field_2 : real; end record; type stuff is array (Integer range 1 to 2) of info; end c09s06b00x00p04n07i01785pkg; use work.c09s06b00x00p04n07i01785pkg.all; entity c09s06b00x00p04n07i01785ent_a is port ( port_0 : in Boolean ; port_1 : in Bit ; port_2 : in Character ; port_3 : in SEVERITY_LEVEL ; port_4 : in Integer ; port_5 : in Real ; port_6 : in TIME ; port_7 : in Natural ; port_8 : in Positive ; port_9 : in String ; port_A : in Bit_vector ; port_B : in stuff ); end c09s06b00x00p04n07i01785ent_a; use work.c09s06b00x00p04n07i01785pkg.all; architecture c09s06b00x00p04n07i01785arch_a of c09s06b00x00p04n07i01785ent_a is -- Check that the data was passed... begin TESTING: PROCESS(port_0,port_1,port_2,port_3,port_4,port_5,port_6,port_7,port_8) BEGIN assert NOT( port_0 = True and port_1 = '0' and port_2 = '@' and port_3 = NOTE and port_4 = 123456789 and port_5 = 987654321.5 and port_6 = 110 ns and port_7 = 12312 and port_8 = 3423 and port_9 = "16 characters OK" and port_A = B"01010010100101010010101001010100" and port_B = ((123, 456.7), (890, 135.7)) ) report "*PASSED TEST: c09s06b00x00p04n07i01785" severity NOTE; assert ( port_0 = True and port_1 = '0' and port_2 = '@' and port_3 = NOTE and port_4 = 123456789 and port_5 = 987654321.5 and port_6 = 110 ns and port_7 = 12312 and port_8 = 3423 and port_9 = "16 characters OK" and port_A = B"01010010100101010010101001010100" and port_B = ((123, 456.7), (890, 135.7))) report "*FAILED TEST: c09s06b00x00p04n07i01785 - Port map aspect associates a single actual with each local port in the corresponding component declaration test failed." severity ERROR; END PROCESS TESTING; end c09s06b00x00p04n07i01785arch_a; ----------------------------------------------------------------------- ENTITY vests32 IS END vests32; use work.c09s06b00x00p04n07i01785pkg.all; ARCHITECTURE c09s06b00x00p04n07i01785arch OF vests32 IS subtype reg32 is Bit_vector ( 31 downto 0 ); subtype string16 is String ( 1 to 16 ); signal sig_0 : Boolean := TRUE; signal sig_1 : Bit := '0'; signal sig_2 : Character := '@'; signal sig_3 : SEVERITY_LEVEL := NOTE; signal sig_4 : Integer := 123456789; signal sig_5 : Real := 987654321.5; signal sig_6 : TIME := 110 NS; signal sig_7 : Natural := 12312; signal sig_8 : Positive := 3423; signal sig_9 : String16 := "16 characters OK"; signal sig_A : REG32 := B"0101_0010_1001_0101_0010_1010_0101_0100"; signal sig_B : stuff := (( 123, 456.7 ), ( 890, 135.7 )); component MultiType port ( port_0 : in Boolean ; port_1 : in Bit ; port_2 : in Character ; port_3 : in SEVERITY_LEVEL ; port_4 : in Integer ; port_5 : in Real ; port_6 : in TIME ; port_7 : in Natural ; port_8 : in Positive ; port_9 : in String ; port_A : in Bit_vector ; port_B : in stuff ); end component; for u1 : MultiType use entity work.c09s06b00x00p04n07i01785ent_a (c09s06b00x00p04n07i01785arch_a); BEGIN u1 : MultiType port map ( port_0 => sig_0, port_1 => sig_1, port_2 => sig_2, port_3 => sig_3, port_4 => sig_4, port_5 => sig_5, port_6 => sig_6, port_7 => sig_7, port_8 => sig_8, port_9 => sig_9, port_A => sig_A, port_B => sig_B ); END c09s06b00x00p04n07i01785arch;
library ieee; use ieee.std_logic_1164.all; library lattice; use lattice.components.all; entity OSCINT is port( osc_dis: in std_logic; tmr_rst: in std_logic; osc_out: out std_logic; tmr_out: out std_logic); end; architecture OSCIN of OSCINT is component OSCTIMER generic(TIMER_DIV: string); port( DYNOSCDIS: in std_logic; TIMERRES: in std_logic; OSCOUT: out std_logic; TIMEROUT: out std_logic); end component; begin inst00: OSCTIMER generic map(TIMER_DIV => "1048576") port map( DYNOSCDIS => osc_dis, TIMERRES => tmr_rst, OSCOUT => osc_out, TIMEROUT => tmr_out ); end OSCIN;
--Copyright (C) 2016 Siavoosh Payandeh Azad Behrad Niazmand library ieee; use ieee.std_logic_1164.all; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; use IEEE.NUMERIC_STD.all; use IEEE.MATH_REAL.ALL; entity LBDR_packet_drop is generic ( cur_addr_rst: integer := 8; Cx_rst: integer := 8; NoC_size: integer := 4 ); port ( reset: in std_logic; clk: in std_logic; Rxy_reconf: in std_logic_vector(7 downto 0); Reconfig : in std_logic; Faulty_C_N, Faulty_C_E, Faulty_C_W, Faulty_C_S: in std_logic; empty: in std_logic; flit_type: in std_logic_vector(2 downto 0); dst_addr: in std_logic_vector(NoC_size-1 downto 0); packet_drop_order: out std_logic; grant_N, grant_E, grant_W, grant_S, grant_L: in std_logic; Req_N, Req_E, Req_W, Req_S, Req_L:out std_logic; -- Checker outputs -- Routing part checkers err_header_empty_Requests_FF_Requests_in, err_tail_Requests_in_all_zero, err_tail_empty_Requests_FF_Requests_in, err_tail_not_empty_not_grants_Requests_FF_Requests_in, err_grants_onehot, err_grants_mismatch, err_header_tail_Requests_FF_Requests_in, err_dst_addr_cur_addr_N1, err_dst_addr_cur_addr_not_N1, err_dst_addr_cur_addr_E1, err_dst_addr_cur_addr_not_E1, err_dst_addr_cur_addr_W1, err_dst_addr_cur_addr_not_W1, err_dst_addr_cur_addr_S1, err_dst_addr_cur_addr_not_S1, err_dst_addr_cur_addr_not_Req_L_in, err_dst_addr_cur_addr_Req_L_in, err_header_not_empty_Req_N_in, err_header_not_empty_Req_E_in, err_header_not_empty_Req_W_in, err_header_not_empty_Req_S_in, err_header_not_empty_packet_drop_in, err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal, err_header_empty_packet_drop_in_packet_drop_equal, err_tail_not_empty_packet_drop_not_packet_drop_in, err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal, err_invalid_or_body_flit_packet_drop_in_packet_drop_equal, err_packet_drop_order, -- Cx_Reconf checkers err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal, -- Rxy_Reconf checkers err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal : out std_logic ); end LBDR_packet_drop; architecture behavior of LBDR_packet_drop is signal Cx, Cx_in: std_logic_vector(3 downto 0); signal Temp_Cx, Temp_Cx_in: std_logic_vector(3 downto 0); signal reconfig_cx, reconfig_cx_in: std_logic; signal Rxy, Rxy_in: std_logic_vector(7 downto 0); signal cur_addr: std_logic_vector(NoC_size-1 downto 0); signal N1, E1, W1, S1 :std_logic :='0'; signal Req_N_in, Req_E_in, Req_W_in, Req_S_in, Req_L_in: std_logic; signal Req_N_FF, Req_E_FF, Req_W_FF, Req_S_FF, Req_L_FF: std_logic; signal grants: std_logic; signal packet_drop, packet_drop_in: std_logic; signal ReConf_FF_in, ReConf_FF_out: std_logic; -- Signal(s) required for checker(s) signal packet_drop_order_sig: std_logic; component LBDR_packet_drop_routing_part_pseudo_checkers is generic ( cur_addr_rst: integer := 5; NoC_size: integer := 4 ); port ( empty: in std_logic; flit_type: in std_logic_vector(2 downto 0); Req_N_FF, Req_E_FF, Req_W_FF, Req_S_FF, Req_L_FF: in std_logic; grant_N, grant_E, grant_W, grant_S, grant_L: in std_logic; dst_addr: in std_logic_vector(NoC_size-1 downto 0); Cx: in std_logic_vector(3 downto 0); Rxy: in std_logic_vector(7 downto 0); packet_drop: in std_logic; N1_out, E1_out, W1_out, S1_out: in std_logic; Req_N_in, Req_E_in, Req_W_in, Req_S_in, Req_L_in: in std_logic; grants: in std_logic; packet_drop_order: in std_logic; packet_drop_in: in std_logic; -- Checker outputs err_header_empty_Requests_FF_Requests_in, err_tail_Requests_in_all_zero, err_tail_empty_Requests_FF_Requests_in, err_tail_not_empty_not_grants_Requests_FF_Requests_in, err_grants_onehot, err_grants_mismatch, err_header_tail_Requests_FF_Requests_in, err_dst_addr_cur_addr_N1, err_dst_addr_cur_addr_not_N1, err_dst_addr_cur_addr_E1, err_dst_addr_cur_addr_not_E1, err_dst_addr_cur_addr_W1, err_dst_addr_cur_addr_not_W1, err_dst_addr_cur_addr_S1, err_dst_addr_cur_addr_not_S1, err_dst_addr_cur_addr_not_Req_L_in, err_dst_addr_cur_addr_Req_L_in, err_header_not_empty_Req_N_in, err_header_not_empty_Req_E_in, err_header_not_empty_Req_W_in, err_header_not_empty_Req_S_in, err_header_not_empty_packet_drop_in, err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal, err_header_empty_packet_drop_in_packet_drop_equal, err_tail_not_empty_packet_drop_not_packet_drop_in, err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal, err_invalid_or_body_flit_packet_drop_in_packet_drop_equal, err_packet_drop_order : out std_logic ); end component; component Cx_Reconf_pseudo_checkers is port ( reconfig_cx: in std_logic; flit_type: in std_logic_vector(2 downto 0); empty: in std_logic; grants: in std_logic; Cx_in: in std_logic_vector(3 downto 0); Temp_Cx: in std_logic_vector(3 downto 0); reconfig_cx_in: in std_logic; Cx: in std_logic_vector(3 downto 0); Faulty_C_N: in std_logic; Faulty_C_E: in std_logic; Faulty_C_W: in std_logic; Faulty_C_S: in std_logic; Temp_Cx_in: in std_logic_vector(3 downto 0); -- Checker Outputs err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal : out std_logic ); end component; component Rxy_Reconf_pseudo_checkers is port ( ReConf_FF_out: in std_logic; flit_type: in std_logic_vector(2 downto 0); empty: in std_logic; grants: in std_logic; Rxy_in: in std_logic_vector(7 downto 0); Rxy_reconf: in std_logic_vector(7 downto 0); ReConf_FF_in: in std_logic; Rxy: in std_logic_vector(7 downto 0); Reconfig : in std_logic; err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal : out std_logic ); end component; begin packet_drop_order <= packet_drop_order_sig; -- LBDR packet drop routing part checkers instantiation LBDR_packet_drop_routing_part_checkers: LBDR_packet_drop_routing_part_pseudo_checkers generic map (cur_addr_rst => cur_addr_rst, NoC_size => NoC_size) port map ( empty => empty, flit_type => flit_type, Req_N_FF => Req_N_FF, Req_E_FF => Req_E_FF, Req_W_FF => Req_W_FF, Req_S_FF => Req_S_FF, Req_L_FF => Req_L_FF, grant_N => grant_N, grant_E => grant_E, grant_W => grant_W, grant_S => grant_S, grant_L => grant_L, dst_addr => dst_addr, Cx => Cx, Rxy => Rxy, packet_drop => packet_drop, N1_out => N1, E1_out => E1, W1_out => W1, S1_out => S1, Req_N_in => Req_N_in, Req_E_in => Req_E_in, Req_W_in => Req_W_in, Req_S_in => Req_S_in, Req_L_in => Req_L_in, grants => grants, packet_drop_order => packet_drop_order_sig, packet_drop_in => packet_drop_in, -- Checker outputs err_header_empty_Requests_FF_Requests_in => err_header_empty_Requests_FF_Requests_in, err_tail_Requests_in_all_zero => err_tail_Requests_in_all_zero, err_tail_empty_Requests_FF_Requests_in => err_tail_empty_Requests_FF_Requests_in, err_tail_not_empty_not_grants_Requests_FF_Requests_in => err_tail_not_empty_not_grants_Requests_FF_Requests_in, err_grants_onehot => err_grants_onehot, err_grants_mismatch => err_grants_mismatch, err_header_tail_Requests_FF_Requests_in => err_header_tail_Requests_FF_Requests_in, err_dst_addr_cur_addr_N1 => err_dst_addr_cur_addr_N1, err_dst_addr_cur_addr_not_N1 => err_dst_addr_cur_addr_not_N1, err_dst_addr_cur_addr_E1 => err_dst_addr_cur_addr_E1, err_dst_addr_cur_addr_not_E1 => err_dst_addr_cur_addr_not_E1, err_dst_addr_cur_addr_W1 => err_dst_addr_cur_addr_W1, err_dst_addr_cur_addr_not_W1 => err_dst_addr_cur_addr_not_W1, err_dst_addr_cur_addr_S1 => err_dst_addr_cur_addr_S1, err_dst_addr_cur_addr_not_S1 => err_dst_addr_cur_addr_not_S1, err_dst_addr_cur_addr_not_Req_L_in => err_dst_addr_cur_addr_not_Req_L_in, err_dst_addr_cur_addr_Req_L_in => err_dst_addr_cur_addr_Req_L_in, err_header_not_empty_Req_N_in => err_header_not_empty_Req_N_in, err_header_not_empty_Req_E_in => err_header_not_empty_Req_E_in, err_header_not_empty_Req_W_in => err_header_not_empty_Req_W_in, err_header_not_empty_Req_S_in => err_header_not_empty_Req_S_in, err_header_not_empty_packet_drop_in => err_header_not_empty_packet_drop_in, err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal => err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal, err_header_empty_packet_drop_in_packet_drop_equal => err_header_empty_packet_drop_in_packet_drop_equal, err_tail_not_empty_packet_drop_not_packet_drop_in => err_tail_not_empty_packet_drop_not_packet_drop_in, err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal => err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal, err_invalid_or_body_flit_packet_drop_in_packet_drop_equal => err_invalid_or_body_flit_packet_drop_in_packet_drop_equal, err_packet_drop_order => err_packet_drop_order ); -- LBDR packet drop Cx Reconfiguration module checkers instantiation Cx_Reconf_checkers: Cx_Reconf_pseudo_checkers port map ( reconfig_cx => reconfig_cx, flit_type => flit_type, empty => empty, grants => grants, Cx_in => Cx_in, Temp_Cx => Temp_Cx, reconfig_cx_in => reconfig_cx_in, Cx => Cx, Faulty_C_N => Faulty_C_N, Faulty_C_E => Faulty_C_E, Faulty_C_W => Faulty_C_W, Faulty_C_S => Faulty_C_S, Temp_Cx_in => Temp_Cx_in, -- Checker Outputs err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal => err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in => err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal => err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal ); -- LBDR packet drop Rxy Reconfiguration checkers instantiation Rxy_Reconf_checkers : Rxy_Reconf_pseudo_checkers port map ( ReConf_FF_out => ReConf_FF_out, flit_type => flit_type, empty => empty, grants => grants, Rxy_in => Rxy_in, Rxy_reconf => Rxy_reconf, ReConf_FF_in => ReConf_FF_in, Rxy => Rxy, Reconfig => Reconfig, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal => err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in => err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal => err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in => err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal => err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal ); grants <= grant_N or grant_E or grant_W or grant_S or grant_L; cur_addr <= std_logic_vector(to_unsigned(cur_addr_rst, cur_addr'length)); N1 <= '1' when dst_addr(NoC_size-1 downto NoC_size/2) < cur_addr(NoC_size-1 downto NoC_size/2) else '0'; E1 <= '1' when cur_addr((NoC_size/2)-1 downto 0) < dst_addr((NoC_size/2)-1 downto 0) else '0'; W1 <= '1' when dst_addr((NoC_size/2)-1 downto 0) < cur_addr((NoC_size/2)-1 downto 0) else '0'; S1 <= '1' when cur_addr(NoC_size-1 downto NoC_size/2) < dst_addr(NoC_size-1 downto NoC_size/2) else '0'; process(clk, reset) begin if reset = '0' then Rxy <= Rxy_reconf; Req_N_FF <= '0'; Req_E_FF <= '0'; Req_W_FF <= '0'; Req_S_FF <= '0'; Req_L_FF <= '0'; Cx <= std_logic_vector(to_unsigned(Cx_rst, Cx'length)); Temp_Cx <= (others => '0'); ReConf_FF_out <= '0'; reconfig_cx <= '0'; packet_drop <= '0'; elsif clk'event and clk = '1' then Rxy <= Rxy_in; Req_N_FF <= Req_N_in; Req_E_FF <= Req_E_in; Req_W_FF <= Req_W_in; Req_S_FF <= Req_S_in; Req_L_FF <= Req_L_in; ReConf_FF_out <= ReConf_FF_in; Cx <= Cx_in; reconfig_cx <= reconfig_cx_in; Temp_Cx <= Temp_Cx_in; packet_drop <= packet_drop_in; end if; end process; -- The combionational part process(Rxy_reconf, ReConf_FF_out, Rxy, Reconfig, flit_type, grants, empty)begin if ReConf_FF_out= '1' and flit_type = "100" and empty = '0' and grants = '1' then Rxy_in <= Rxy_reconf; ReConf_FF_in <= '0'; else Rxy_in <= Rxy; if Reconfig = '1' then ReConf_FF_in <= '1'; else ReConf_FF_in <= ReConf_FF_out; end if; end if; end process; process(Faulty_C_N, Faulty_C_E, Faulty_C_W, Faulty_C_S, Cx, Temp_Cx, flit_type, reconfig_cx, empty, grants) begin Temp_Cx_in <= Temp_Cx; if reconfig_cx = '1' and flit_type = "100" and empty = '0' and grants = '1' then Cx_in <= Temp_Cx; reconfig_cx_in <= '0'; else Cx_in <= Cx; if (Faulty_C_N or Faulty_C_E or Faulty_C_W or Faulty_C_S) = '1' then reconfig_cx_in <= '1'; Temp_Cx_in <= not(Faulty_C_S & Faulty_C_W & Faulty_C_E & Faulty_C_N) and Cx; else reconfig_cx_in <= reconfig_cx; end if; end if; end process; Req_N <= Req_N_FF; Req_E <= Req_E_FF; Req_W <= Req_W_FF; Req_S <= Req_S_FF; Req_L <= Req_L_FF; process(N1, E1, W1, S1, Rxy, Cx, flit_type, empty, Req_N_FF, Req_E_FF, Req_W_FF, Req_S_FF, Req_L_FF, grants, packet_drop) begin packet_drop_in <= packet_drop; if flit_type = "001" and empty = '0' then Req_N_in <= ((N1 and not E1 and not W1) or (N1 and E1 and Rxy(0)) or (N1 and W1 and Rxy(1))) and Cx(0); Req_E_in <= ((E1 and not N1 and not S1) or (E1 and N1 and Rxy(2)) or (E1 and S1 and Rxy(3))) and Cx(1); Req_W_in <= ((W1 and not N1 and not S1) or (W1 and N1 and Rxy(4)) or (W1 and S1 and Rxy(5))) and Cx(2); Req_S_in <= ((S1 and not E1 and not W1) or (S1 and E1 and Rxy(6)) or (S1 and W1 and Rxy(7))) and Cx(3); if dst_addr = cur_addr then Req_L_in <= '1'; else Req_L_in <= Req_L_FF; -- Added to remove latch possibility. Correct ?? end if; if ((((N1 and not E1 and not W1) or (N1 and E1 and Rxy(0)) or (N1 and W1 and Rxy(1))) and Cx(0)) or (((E1 and not N1 and not S1) or (E1 and N1 and Rxy(2)) or (E1 and S1 and Rxy(3))) and Cx(1)) or (((W1 and not N1 and not S1) or (W1 and N1 and Rxy(4)) or (W1 and S1 and Rxy(5))) and Cx(2)) or (((S1 and not E1 and not W1) or (S1 and E1 and Rxy(6)) or (S1 and W1 and Rxy(7))) and Cx(3))) ='0' and dst_addr /= cur_addr then packet_drop_in <= '1'; end if; elsif flit_type = "100" and empty = '0' and grants = '1' then Req_N_in <= '0'; Req_E_in <= '0'; Req_W_in <= '0'; Req_S_in <= '0'; Req_L_in <= '0'; else Req_N_in <= Req_N_FF; Req_E_in <= Req_E_FF; Req_W_in <= Req_W_FF; Req_S_in <= Req_S_FF; Req_L_in <= Req_L_FF; end if; if flit_type = "100" and empty = '0' then if packet_drop = '1' then packet_drop_in <= '0'; end if; end if; end process; packet_drop_order_sig <= packet_drop; END;
--Copyright (C) 2016 Siavoosh Payandeh Azad Behrad Niazmand library ieee; use ieee.std_logic_1164.all; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; use IEEE.NUMERIC_STD.all; use IEEE.MATH_REAL.ALL; entity LBDR_packet_drop is generic ( cur_addr_rst: integer := 8; Cx_rst: integer := 8; NoC_size: integer := 4 ); port ( reset: in std_logic; clk: in std_logic; Rxy_reconf: in std_logic_vector(7 downto 0); Reconfig : in std_logic; Faulty_C_N, Faulty_C_E, Faulty_C_W, Faulty_C_S: in std_logic; empty: in std_logic; flit_type: in std_logic_vector(2 downto 0); dst_addr: in std_logic_vector(NoC_size-1 downto 0); packet_drop_order: out std_logic; grant_N, grant_E, grant_W, grant_S, grant_L: in std_logic; Req_N, Req_E, Req_W, Req_S, Req_L:out std_logic; -- Checker outputs -- Routing part checkers err_header_empty_Requests_FF_Requests_in, err_tail_Requests_in_all_zero, err_tail_empty_Requests_FF_Requests_in, err_tail_not_empty_not_grants_Requests_FF_Requests_in, err_grants_onehot, err_grants_mismatch, err_header_tail_Requests_FF_Requests_in, err_dst_addr_cur_addr_N1, err_dst_addr_cur_addr_not_N1, err_dst_addr_cur_addr_E1, err_dst_addr_cur_addr_not_E1, err_dst_addr_cur_addr_W1, err_dst_addr_cur_addr_not_W1, err_dst_addr_cur_addr_S1, err_dst_addr_cur_addr_not_S1, err_dst_addr_cur_addr_not_Req_L_in, err_dst_addr_cur_addr_Req_L_in, err_header_not_empty_Req_N_in, err_header_not_empty_Req_E_in, err_header_not_empty_Req_W_in, err_header_not_empty_Req_S_in, err_header_not_empty_packet_drop_in, err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal, err_header_empty_packet_drop_in_packet_drop_equal, err_tail_not_empty_packet_drop_not_packet_drop_in, err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal, err_invalid_or_body_flit_packet_drop_in_packet_drop_equal, err_packet_drop_order, -- Cx_Reconf checkers err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal, -- Rxy_Reconf checkers err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal : out std_logic ); end LBDR_packet_drop; architecture behavior of LBDR_packet_drop is signal Cx, Cx_in: std_logic_vector(3 downto 0); signal Temp_Cx, Temp_Cx_in: std_logic_vector(3 downto 0); signal reconfig_cx, reconfig_cx_in: std_logic; signal Rxy, Rxy_in: std_logic_vector(7 downto 0); signal cur_addr: std_logic_vector(NoC_size-1 downto 0); signal N1, E1, W1, S1 :std_logic :='0'; signal Req_N_in, Req_E_in, Req_W_in, Req_S_in, Req_L_in: std_logic; signal Req_N_FF, Req_E_FF, Req_W_FF, Req_S_FF, Req_L_FF: std_logic; signal grants: std_logic; signal packet_drop, packet_drop_in: std_logic; signal ReConf_FF_in, ReConf_FF_out: std_logic; -- Signal(s) required for checker(s) signal packet_drop_order_sig: std_logic; component LBDR_packet_drop_routing_part_pseudo_checkers is generic ( cur_addr_rst: integer := 5; NoC_size: integer := 4 ); port ( empty: in std_logic; flit_type: in std_logic_vector(2 downto 0); Req_N_FF, Req_E_FF, Req_W_FF, Req_S_FF, Req_L_FF: in std_logic; grant_N, grant_E, grant_W, grant_S, grant_L: in std_logic; dst_addr: in std_logic_vector(NoC_size-1 downto 0); Cx: in std_logic_vector(3 downto 0); Rxy: in std_logic_vector(7 downto 0); packet_drop: in std_logic; N1_out, E1_out, W1_out, S1_out: in std_logic; Req_N_in, Req_E_in, Req_W_in, Req_S_in, Req_L_in: in std_logic; grants: in std_logic; packet_drop_order: in std_logic; packet_drop_in: in std_logic; -- Checker outputs err_header_empty_Requests_FF_Requests_in, err_tail_Requests_in_all_zero, err_tail_empty_Requests_FF_Requests_in, err_tail_not_empty_not_grants_Requests_FF_Requests_in, err_grants_onehot, err_grants_mismatch, err_header_tail_Requests_FF_Requests_in, err_dst_addr_cur_addr_N1, err_dst_addr_cur_addr_not_N1, err_dst_addr_cur_addr_E1, err_dst_addr_cur_addr_not_E1, err_dst_addr_cur_addr_W1, err_dst_addr_cur_addr_not_W1, err_dst_addr_cur_addr_S1, err_dst_addr_cur_addr_not_S1, err_dst_addr_cur_addr_not_Req_L_in, err_dst_addr_cur_addr_Req_L_in, err_header_not_empty_Req_N_in, err_header_not_empty_Req_E_in, err_header_not_empty_Req_W_in, err_header_not_empty_Req_S_in, err_header_not_empty_packet_drop_in, err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal, err_header_empty_packet_drop_in_packet_drop_equal, err_tail_not_empty_packet_drop_not_packet_drop_in, err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal, err_invalid_or_body_flit_packet_drop_in_packet_drop_equal, err_packet_drop_order : out std_logic ); end component; component Cx_Reconf_pseudo_checkers is port ( reconfig_cx: in std_logic; flit_type: in std_logic_vector(2 downto 0); empty: in std_logic; grants: in std_logic; Cx_in: in std_logic_vector(3 downto 0); Temp_Cx: in std_logic_vector(3 downto 0); reconfig_cx_in: in std_logic; Cx: in std_logic_vector(3 downto 0); Faulty_C_N: in std_logic; Faulty_C_E: in std_logic; Faulty_C_W: in std_logic; Faulty_C_S: in std_logic; Temp_Cx_in: in std_logic_vector(3 downto 0); -- Checker Outputs err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal : out std_logic ); end component; component Rxy_Reconf_pseudo_checkers is port ( ReConf_FF_out: in std_logic; flit_type: in std_logic_vector(2 downto 0); empty: in std_logic; grants: in std_logic; Rxy_in: in std_logic_vector(7 downto 0); Rxy_reconf: in std_logic_vector(7 downto 0); ReConf_FF_in: in std_logic; Rxy: in std_logic_vector(7 downto 0); Reconfig : in std_logic; err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal : out std_logic ); end component; begin packet_drop_order <= packet_drop_order_sig; -- LBDR packet drop routing part checkers instantiation LBDR_packet_drop_routing_part_checkers: LBDR_packet_drop_routing_part_pseudo_checkers generic map (cur_addr_rst => cur_addr_rst, NoC_size => NoC_size) port map ( empty => empty, flit_type => flit_type, Req_N_FF => Req_N_FF, Req_E_FF => Req_E_FF, Req_W_FF => Req_W_FF, Req_S_FF => Req_S_FF, Req_L_FF => Req_L_FF, grant_N => grant_N, grant_E => grant_E, grant_W => grant_W, grant_S => grant_S, grant_L => grant_L, dst_addr => dst_addr, Cx => Cx, Rxy => Rxy, packet_drop => packet_drop, N1_out => N1, E1_out => E1, W1_out => W1, S1_out => S1, Req_N_in => Req_N_in, Req_E_in => Req_E_in, Req_W_in => Req_W_in, Req_S_in => Req_S_in, Req_L_in => Req_L_in, grants => grants, packet_drop_order => packet_drop_order_sig, packet_drop_in => packet_drop_in, -- Checker outputs err_header_empty_Requests_FF_Requests_in => err_header_empty_Requests_FF_Requests_in, err_tail_Requests_in_all_zero => err_tail_Requests_in_all_zero, err_tail_empty_Requests_FF_Requests_in => err_tail_empty_Requests_FF_Requests_in, err_tail_not_empty_not_grants_Requests_FF_Requests_in => err_tail_not_empty_not_grants_Requests_FF_Requests_in, err_grants_onehot => err_grants_onehot, err_grants_mismatch => err_grants_mismatch, err_header_tail_Requests_FF_Requests_in => err_header_tail_Requests_FF_Requests_in, err_dst_addr_cur_addr_N1 => err_dst_addr_cur_addr_N1, err_dst_addr_cur_addr_not_N1 => err_dst_addr_cur_addr_not_N1, err_dst_addr_cur_addr_E1 => err_dst_addr_cur_addr_E1, err_dst_addr_cur_addr_not_E1 => err_dst_addr_cur_addr_not_E1, err_dst_addr_cur_addr_W1 => err_dst_addr_cur_addr_W1, err_dst_addr_cur_addr_not_W1 => err_dst_addr_cur_addr_not_W1, err_dst_addr_cur_addr_S1 => err_dst_addr_cur_addr_S1, err_dst_addr_cur_addr_not_S1 => err_dst_addr_cur_addr_not_S1, err_dst_addr_cur_addr_not_Req_L_in => err_dst_addr_cur_addr_not_Req_L_in, err_dst_addr_cur_addr_Req_L_in => err_dst_addr_cur_addr_Req_L_in, err_header_not_empty_Req_N_in => err_header_not_empty_Req_N_in, err_header_not_empty_Req_E_in => err_header_not_empty_Req_E_in, err_header_not_empty_Req_W_in => err_header_not_empty_Req_W_in, err_header_not_empty_Req_S_in => err_header_not_empty_Req_S_in, err_header_not_empty_packet_drop_in => err_header_not_empty_packet_drop_in, err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal => err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal, err_header_empty_packet_drop_in_packet_drop_equal => err_header_empty_packet_drop_in_packet_drop_equal, err_tail_not_empty_packet_drop_not_packet_drop_in => err_tail_not_empty_packet_drop_not_packet_drop_in, err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal => err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal, err_invalid_or_body_flit_packet_drop_in_packet_drop_equal => err_invalid_or_body_flit_packet_drop_in_packet_drop_equal, err_packet_drop_order => err_packet_drop_order ); -- LBDR packet drop Cx Reconfiguration module checkers instantiation Cx_Reconf_checkers: Cx_Reconf_pseudo_checkers port map ( reconfig_cx => reconfig_cx, flit_type => flit_type, empty => empty, grants => grants, Cx_in => Cx_in, Temp_Cx => Temp_Cx, reconfig_cx_in => reconfig_cx_in, Cx => Cx, Faulty_C_N => Faulty_C_N, Faulty_C_E => Faulty_C_E, Faulty_C_W => Faulty_C_W, Faulty_C_S => Faulty_C_S, Temp_Cx_in => Temp_Cx_in, -- Checker Outputs err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal => err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in => err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal => err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal ); -- LBDR packet drop Rxy Reconfiguration checkers instantiation Rxy_Reconf_checkers : Rxy_Reconf_pseudo_checkers port map ( ReConf_FF_out => ReConf_FF_out, flit_type => flit_type, empty => empty, grants => grants, Rxy_in => Rxy_in, Rxy_reconf => Rxy_reconf, ReConf_FF_in => ReConf_FF_in, Rxy => Rxy, Reconfig => Reconfig, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal => err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in => err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal => err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in => err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal => err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal ); grants <= grant_N or grant_E or grant_W or grant_S or grant_L; cur_addr <= std_logic_vector(to_unsigned(cur_addr_rst, cur_addr'length)); N1 <= '1' when dst_addr(NoC_size-1 downto NoC_size/2) < cur_addr(NoC_size-1 downto NoC_size/2) else '0'; E1 <= '1' when cur_addr((NoC_size/2)-1 downto 0) < dst_addr((NoC_size/2)-1 downto 0) else '0'; W1 <= '1' when dst_addr((NoC_size/2)-1 downto 0) < cur_addr((NoC_size/2)-1 downto 0) else '0'; S1 <= '1' when cur_addr(NoC_size-1 downto NoC_size/2) < dst_addr(NoC_size-1 downto NoC_size/2) else '0'; process(clk, reset) begin if reset = '0' then Rxy <= Rxy_reconf; Req_N_FF <= '0'; Req_E_FF <= '0'; Req_W_FF <= '0'; Req_S_FF <= '0'; Req_L_FF <= '0'; Cx <= std_logic_vector(to_unsigned(Cx_rst, Cx'length)); Temp_Cx <= (others => '0'); ReConf_FF_out <= '0'; reconfig_cx <= '0'; packet_drop <= '0'; elsif clk'event and clk = '1' then Rxy <= Rxy_in; Req_N_FF <= Req_N_in; Req_E_FF <= Req_E_in; Req_W_FF <= Req_W_in; Req_S_FF <= Req_S_in; Req_L_FF <= Req_L_in; ReConf_FF_out <= ReConf_FF_in; Cx <= Cx_in; reconfig_cx <= reconfig_cx_in; Temp_Cx <= Temp_Cx_in; packet_drop <= packet_drop_in; end if; end process; -- The combionational part process(Rxy_reconf, ReConf_FF_out, Rxy, Reconfig, flit_type, grants, empty)begin if ReConf_FF_out= '1' and flit_type = "100" and empty = '0' and grants = '1' then Rxy_in <= Rxy_reconf; ReConf_FF_in <= '0'; else Rxy_in <= Rxy; if Reconfig = '1' then ReConf_FF_in <= '1'; else ReConf_FF_in <= ReConf_FF_out; end if; end if; end process; process(Faulty_C_N, Faulty_C_E, Faulty_C_W, Faulty_C_S, Cx, Temp_Cx, flit_type, reconfig_cx, empty, grants) begin Temp_Cx_in <= Temp_Cx; if reconfig_cx = '1' and flit_type = "100" and empty = '0' and grants = '1' then Cx_in <= Temp_Cx; reconfig_cx_in <= '0'; else Cx_in <= Cx; if (Faulty_C_N or Faulty_C_E or Faulty_C_W or Faulty_C_S) = '1' then reconfig_cx_in <= '1'; Temp_Cx_in <= not(Faulty_C_S & Faulty_C_W & Faulty_C_E & Faulty_C_N) and Cx; else reconfig_cx_in <= reconfig_cx; end if; end if; end process; Req_N <= Req_N_FF; Req_E <= Req_E_FF; Req_W <= Req_W_FF; Req_S <= Req_S_FF; Req_L <= Req_L_FF; process(N1, E1, W1, S1, Rxy, Cx, flit_type, empty, Req_N_FF, Req_E_FF, Req_W_FF, Req_S_FF, Req_L_FF, grants, packet_drop) begin packet_drop_in <= packet_drop; if flit_type = "001" and empty = '0' then Req_N_in <= ((N1 and not E1 and not W1) or (N1 and E1 and Rxy(0)) or (N1 and W1 and Rxy(1))) and Cx(0); Req_E_in <= ((E1 and not N1 and not S1) or (E1 and N1 and Rxy(2)) or (E1 and S1 and Rxy(3))) and Cx(1); Req_W_in <= ((W1 and not N1 and not S1) or (W1 and N1 and Rxy(4)) or (W1 and S1 and Rxy(5))) and Cx(2); Req_S_in <= ((S1 and not E1 and not W1) or (S1 and E1 and Rxy(6)) or (S1 and W1 and Rxy(7))) and Cx(3); if dst_addr = cur_addr then Req_L_in <= '1'; else Req_L_in <= Req_L_FF; -- Added to remove latch possibility. Correct ?? end if; if ((((N1 and not E1 and not W1) or (N1 and E1 and Rxy(0)) or (N1 and W1 and Rxy(1))) and Cx(0)) or (((E1 and not N1 and not S1) or (E1 and N1 and Rxy(2)) or (E1 and S1 and Rxy(3))) and Cx(1)) or (((W1 and not N1 and not S1) or (W1 and N1 and Rxy(4)) or (W1 and S1 and Rxy(5))) and Cx(2)) or (((S1 and not E1 and not W1) or (S1 and E1 and Rxy(6)) or (S1 and W1 and Rxy(7))) and Cx(3))) ='0' and dst_addr /= cur_addr then packet_drop_in <= '1'; end if; elsif flit_type = "100" and empty = '0' and grants = '1' then Req_N_in <= '0'; Req_E_in <= '0'; Req_W_in <= '0'; Req_S_in <= '0'; Req_L_in <= '0'; else Req_N_in <= Req_N_FF; Req_E_in <= Req_E_FF; Req_W_in <= Req_W_FF; Req_S_in <= Req_S_FF; Req_L_in <= Req_L_FF; end if; if flit_type = "100" and empty = '0' then if packet_drop = '1' then packet_drop_in <= '0'; end if; end if; end process; packet_drop_order_sig <= packet_drop; END;
--Copyright (C) 2016 Siavoosh Payandeh Azad Behrad Niazmand library ieee; use ieee.std_logic_1164.all; use IEEE.STD_LOGIC_ARITH.ALL; use IEEE.STD_LOGIC_UNSIGNED.ALL; use IEEE.NUMERIC_STD.all; use IEEE.MATH_REAL.ALL; entity LBDR_packet_drop is generic ( cur_addr_rst: integer := 8; Cx_rst: integer := 8; NoC_size: integer := 4 ); port ( reset: in std_logic; clk: in std_logic; Rxy_reconf: in std_logic_vector(7 downto 0); Reconfig : in std_logic; Faulty_C_N, Faulty_C_E, Faulty_C_W, Faulty_C_S: in std_logic; empty: in std_logic; flit_type: in std_logic_vector(2 downto 0); dst_addr: in std_logic_vector(NoC_size-1 downto 0); packet_drop_order: out std_logic; grant_N, grant_E, grant_W, grant_S, grant_L: in std_logic; Req_N, Req_E, Req_W, Req_S, Req_L:out std_logic; -- Checker outputs -- Routing part checkers err_header_empty_Requests_FF_Requests_in, err_tail_Requests_in_all_zero, err_tail_empty_Requests_FF_Requests_in, err_tail_not_empty_not_grants_Requests_FF_Requests_in, err_grants_onehot, err_grants_mismatch, err_header_tail_Requests_FF_Requests_in, err_dst_addr_cur_addr_N1, err_dst_addr_cur_addr_not_N1, err_dst_addr_cur_addr_E1, err_dst_addr_cur_addr_not_E1, err_dst_addr_cur_addr_W1, err_dst_addr_cur_addr_not_W1, err_dst_addr_cur_addr_S1, err_dst_addr_cur_addr_not_S1, err_dst_addr_cur_addr_not_Req_L_in, err_dst_addr_cur_addr_Req_L_in, err_header_not_empty_Req_N_in, err_header_not_empty_Req_E_in, err_header_not_empty_Req_W_in, err_header_not_empty_Req_S_in, err_header_not_empty_packet_drop_in, err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal, err_header_empty_packet_drop_in_packet_drop_equal, err_tail_not_empty_packet_drop_not_packet_drop_in, err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal, err_invalid_or_body_flit_packet_drop_in_packet_drop_equal, err_packet_drop_order, -- Cx_Reconf checkers err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal, -- Rxy_Reconf checkers err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal : out std_logic ); end LBDR_packet_drop; architecture behavior of LBDR_packet_drop is signal Cx, Cx_in: std_logic_vector(3 downto 0); signal Temp_Cx, Temp_Cx_in: std_logic_vector(3 downto 0); signal reconfig_cx, reconfig_cx_in: std_logic; signal Rxy, Rxy_in: std_logic_vector(7 downto 0); signal cur_addr: std_logic_vector(NoC_size-1 downto 0); signal N1, E1, W1, S1 :std_logic :='0'; signal Req_N_in, Req_E_in, Req_W_in, Req_S_in, Req_L_in: std_logic; signal Req_N_FF, Req_E_FF, Req_W_FF, Req_S_FF, Req_L_FF: std_logic; signal grants: std_logic; signal packet_drop, packet_drop_in: std_logic; signal ReConf_FF_in, ReConf_FF_out: std_logic; -- Signal(s) required for checker(s) signal packet_drop_order_sig: std_logic; component LBDR_packet_drop_routing_part_pseudo_checkers is generic ( cur_addr_rst: integer := 5; NoC_size: integer := 4 ); port ( empty: in std_logic; flit_type: in std_logic_vector(2 downto 0); Req_N_FF, Req_E_FF, Req_W_FF, Req_S_FF, Req_L_FF: in std_logic; grant_N, grant_E, grant_W, grant_S, grant_L: in std_logic; dst_addr: in std_logic_vector(NoC_size-1 downto 0); Cx: in std_logic_vector(3 downto 0); Rxy: in std_logic_vector(7 downto 0); packet_drop: in std_logic; N1_out, E1_out, W1_out, S1_out: in std_logic; Req_N_in, Req_E_in, Req_W_in, Req_S_in, Req_L_in: in std_logic; grants: in std_logic; packet_drop_order: in std_logic; packet_drop_in: in std_logic; -- Checker outputs err_header_empty_Requests_FF_Requests_in, err_tail_Requests_in_all_zero, err_tail_empty_Requests_FF_Requests_in, err_tail_not_empty_not_grants_Requests_FF_Requests_in, err_grants_onehot, err_grants_mismatch, err_header_tail_Requests_FF_Requests_in, err_dst_addr_cur_addr_N1, err_dst_addr_cur_addr_not_N1, err_dst_addr_cur_addr_E1, err_dst_addr_cur_addr_not_E1, err_dst_addr_cur_addr_W1, err_dst_addr_cur_addr_not_W1, err_dst_addr_cur_addr_S1, err_dst_addr_cur_addr_not_S1, err_dst_addr_cur_addr_not_Req_L_in, err_dst_addr_cur_addr_Req_L_in, err_header_not_empty_Req_N_in, err_header_not_empty_Req_E_in, err_header_not_empty_Req_W_in, err_header_not_empty_Req_S_in, err_header_not_empty_packet_drop_in, err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal, err_header_empty_packet_drop_in_packet_drop_equal, err_tail_not_empty_packet_drop_not_packet_drop_in, err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal, err_invalid_or_body_flit_packet_drop_in_packet_drop_equal, err_packet_drop_order : out std_logic ); end component; component Cx_Reconf_pseudo_checkers is port ( reconfig_cx: in std_logic; flit_type: in std_logic_vector(2 downto 0); empty: in std_logic; grants: in std_logic; Cx_in: in std_logic_vector(3 downto 0); Temp_Cx: in std_logic_vector(3 downto 0); reconfig_cx_in: in std_logic; Cx: in std_logic_vector(3 downto 0); Faulty_C_N: in std_logic; Faulty_C_E: in std_logic; Faulty_C_W: in std_logic; Faulty_C_S: in std_logic; Temp_Cx_in: in std_logic_vector(3 downto 0); -- Checker Outputs err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal : out std_logic ); end component; component Rxy_Reconf_pseudo_checkers is port ( ReConf_FF_out: in std_logic; flit_type: in std_logic_vector(2 downto 0); empty: in std_logic; grants: in std_logic; Rxy_in: in std_logic_vector(7 downto 0); Rxy_reconf: in std_logic_vector(7 downto 0); ReConf_FF_in: in std_logic; Rxy: in std_logic_vector(7 downto 0); Reconfig : in std_logic; err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal : out std_logic ); end component; begin packet_drop_order <= packet_drop_order_sig; -- LBDR packet drop routing part checkers instantiation LBDR_packet_drop_routing_part_checkers: LBDR_packet_drop_routing_part_pseudo_checkers generic map (cur_addr_rst => cur_addr_rst, NoC_size => NoC_size) port map ( empty => empty, flit_type => flit_type, Req_N_FF => Req_N_FF, Req_E_FF => Req_E_FF, Req_W_FF => Req_W_FF, Req_S_FF => Req_S_FF, Req_L_FF => Req_L_FF, grant_N => grant_N, grant_E => grant_E, grant_W => grant_W, grant_S => grant_S, grant_L => grant_L, dst_addr => dst_addr, Cx => Cx, Rxy => Rxy, packet_drop => packet_drop, N1_out => N1, E1_out => E1, W1_out => W1, S1_out => S1, Req_N_in => Req_N_in, Req_E_in => Req_E_in, Req_W_in => Req_W_in, Req_S_in => Req_S_in, Req_L_in => Req_L_in, grants => grants, packet_drop_order => packet_drop_order_sig, packet_drop_in => packet_drop_in, -- Checker outputs err_header_empty_Requests_FF_Requests_in => err_header_empty_Requests_FF_Requests_in, err_tail_Requests_in_all_zero => err_tail_Requests_in_all_zero, err_tail_empty_Requests_FF_Requests_in => err_tail_empty_Requests_FF_Requests_in, err_tail_not_empty_not_grants_Requests_FF_Requests_in => err_tail_not_empty_not_grants_Requests_FF_Requests_in, err_grants_onehot => err_grants_onehot, err_grants_mismatch => err_grants_mismatch, err_header_tail_Requests_FF_Requests_in => err_header_tail_Requests_FF_Requests_in, err_dst_addr_cur_addr_N1 => err_dst_addr_cur_addr_N1, err_dst_addr_cur_addr_not_N1 => err_dst_addr_cur_addr_not_N1, err_dst_addr_cur_addr_E1 => err_dst_addr_cur_addr_E1, err_dst_addr_cur_addr_not_E1 => err_dst_addr_cur_addr_not_E1, err_dst_addr_cur_addr_W1 => err_dst_addr_cur_addr_W1, err_dst_addr_cur_addr_not_W1 => err_dst_addr_cur_addr_not_W1, err_dst_addr_cur_addr_S1 => err_dst_addr_cur_addr_S1, err_dst_addr_cur_addr_not_S1 => err_dst_addr_cur_addr_not_S1, err_dst_addr_cur_addr_not_Req_L_in => err_dst_addr_cur_addr_not_Req_L_in, err_dst_addr_cur_addr_Req_L_in => err_dst_addr_cur_addr_Req_L_in, err_header_not_empty_Req_N_in => err_header_not_empty_Req_N_in, err_header_not_empty_Req_E_in => err_header_not_empty_Req_E_in, err_header_not_empty_Req_W_in => err_header_not_empty_Req_W_in, err_header_not_empty_Req_S_in => err_header_not_empty_Req_S_in, err_header_not_empty_packet_drop_in => err_header_not_empty_packet_drop_in, err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal => err_header_not_empty_dst_addr_cur_addr_equal_packet_drop_in_packet_drop_equal, err_header_empty_packet_drop_in_packet_drop_equal => err_header_empty_packet_drop_in_packet_drop_equal, err_tail_not_empty_packet_drop_not_packet_drop_in => err_tail_not_empty_packet_drop_not_packet_drop_in, err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal => err_tail_not_empty_not_packet_drop_packet_drop_in_packet_drop_equal, err_invalid_or_body_flit_packet_drop_in_packet_drop_equal => err_invalid_or_body_flit_packet_drop_in_packet_drop_equal, err_packet_drop_order => err_packet_drop_order ); -- LBDR packet drop Cx Reconfiguration module checkers instantiation Cx_Reconf_checkers: Cx_Reconf_pseudo_checkers port map ( reconfig_cx => reconfig_cx, flit_type => flit_type, empty => empty, grants => grants, Cx_in => Cx_in, Temp_Cx => Temp_Cx, reconfig_cx_in => reconfig_cx_in, Cx => Cx, Faulty_C_N => Faulty_C_N, Faulty_C_E => Faulty_C_E, Faulty_C_W => Faulty_C_W, Faulty_C_S => Faulty_C_S, Temp_Cx_in => Temp_Cx_in, -- Checker Outputs err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal => err_reconfig_cx_flit_type_Tail_not_empty_grants_Cx_in_Temp_Cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in => err_reconfig_cx_flit_type_Tail_not_empty_grants_not_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Cx_in_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_reconfig_cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_Faulty_C_Temp_Cx_in, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_reconfig_cx_in_reconfig_cx_equal, err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal => err_reconfig_cx_flit_type_Tail_not_empty_grants_Temp_Cx_in_Temp_Cx_equal, err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal => err_not_reconfig_cx_flit_type_not_Tail_empty_not_grants_not_Faulty_C_Temp_Cx_in_Temp_Cx_equal ); -- LBDR packet drop Rxy Reconfiguration checkers instantiation Rxy_Reconf_checkers : Rxy_Reconf_pseudo_checkers port map ( ReConf_FF_out => ReConf_FF_out, flit_type => flit_type, empty => empty, grants => grants, Rxy_in => Rxy_in, Rxy_reconf => Rxy_reconf, ReConf_FF_in => ReConf_FF_in, Rxy => Rxy, Reconfig => Reconfig, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal => err_ReConf_FF_out_flit_type_Tail_not_empty_grants_Rxy_in_Rxy_reconf_equal, err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in => err_ReConf_FF_out_flit_type_Tail_not_empty_grants_not_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal => err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Rxy_in_Rxy_equal, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in => err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_Reconfig_ReConf_FF_in, err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal => err_not_ReConf_FF_out_flit_type_not_Tail_empty_not_grants_not_Reconfig_ReConf_FF_in_ReConf_FF_out_equal ); grants <= grant_N or grant_E or grant_W or grant_S or grant_L; cur_addr <= std_logic_vector(to_unsigned(cur_addr_rst, cur_addr'length)); N1 <= '1' when dst_addr(NoC_size-1 downto NoC_size/2) < cur_addr(NoC_size-1 downto NoC_size/2) else '0'; E1 <= '1' when cur_addr((NoC_size/2)-1 downto 0) < dst_addr((NoC_size/2)-1 downto 0) else '0'; W1 <= '1' when dst_addr((NoC_size/2)-1 downto 0) < cur_addr((NoC_size/2)-1 downto 0) else '0'; S1 <= '1' when cur_addr(NoC_size-1 downto NoC_size/2) < dst_addr(NoC_size-1 downto NoC_size/2) else '0'; process(clk, reset) begin if reset = '0' then Rxy <= Rxy_reconf; Req_N_FF <= '0'; Req_E_FF <= '0'; Req_W_FF <= '0'; Req_S_FF <= '0'; Req_L_FF <= '0'; Cx <= std_logic_vector(to_unsigned(Cx_rst, Cx'length)); Temp_Cx <= (others => '0'); ReConf_FF_out <= '0'; reconfig_cx <= '0'; packet_drop <= '0'; elsif clk'event and clk = '1' then Rxy <= Rxy_in; Req_N_FF <= Req_N_in; Req_E_FF <= Req_E_in; Req_W_FF <= Req_W_in; Req_S_FF <= Req_S_in; Req_L_FF <= Req_L_in; ReConf_FF_out <= ReConf_FF_in; Cx <= Cx_in; reconfig_cx <= reconfig_cx_in; Temp_Cx <= Temp_Cx_in; packet_drop <= packet_drop_in; end if; end process; -- The combionational part process(Rxy_reconf, ReConf_FF_out, Rxy, Reconfig, flit_type, grants, empty)begin if ReConf_FF_out= '1' and flit_type = "100" and empty = '0' and grants = '1' then Rxy_in <= Rxy_reconf; ReConf_FF_in <= '0'; else Rxy_in <= Rxy; if Reconfig = '1' then ReConf_FF_in <= '1'; else ReConf_FF_in <= ReConf_FF_out; end if; end if; end process; process(Faulty_C_N, Faulty_C_E, Faulty_C_W, Faulty_C_S, Cx, Temp_Cx, flit_type, reconfig_cx, empty, grants) begin Temp_Cx_in <= Temp_Cx; if reconfig_cx = '1' and flit_type = "100" and empty = '0' and grants = '1' then Cx_in <= Temp_Cx; reconfig_cx_in <= '0'; else Cx_in <= Cx; if (Faulty_C_N or Faulty_C_E or Faulty_C_W or Faulty_C_S) = '1' then reconfig_cx_in <= '1'; Temp_Cx_in <= not(Faulty_C_S & Faulty_C_W & Faulty_C_E & Faulty_C_N) and Cx; else reconfig_cx_in <= reconfig_cx; end if; end if; end process; Req_N <= Req_N_FF; Req_E <= Req_E_FF; Req_W <= Req_W_FF; Req_S <= Req_S_FF; Req_L <= Req_L_FF; process(N1, E1, W1, S1, Rxy, Cx, flit_type, empty, Req_N_FF, Req_E_FF, Req_W_FF, Req_S_FF, Req_L_FF, grants, packet_drop) begin packet_drop_in <= packet_drop; if flit_type = "001" and empty = '0' then Req_N_in <= ((N1 and not E1 and not W1) or (N1 and E1 and Rxy(0)) or (N1 and W1 and Rxy(1))) and Cx(0); Req_E_in <= ((E1 and not N1 and not S1) or (E1 and N1 and Rxy(2)) or (E1 and S1 and Rxy(3))) and Cx(1); Req_W_in <= ((W1 and not N1 and not S1) or (W1 and N1 and Rxy(4)) or (W1 and S1 and Rxy(5))) and Cx(2); Req_S_in <= ((S1 and not E1 and not W1) or (S1 and E1 and Rxy(6)) or (S1 and W1 and Rxy(7))) and Cx(3); if dst_addr = cur_addr then Req_L_in <= '1'; else Req_L_in <= Req_L_FF; -- Added to remove latch possibility. Correct ?? end if; if ((((N1 and not E1 and not W1) or (N1 and E1 and Rxy(0)) or (N1 and W1 and Rxy(1))) and Cx(0)) or (((E1 and not N1 and not S1) or (E1 and N1 and Rxy(2)) or (E1 and S1 and Rxy(3))) and Cx(1)) or (((W1 and not N1 and not S1) or (W1 and N1 and Rxy(4)) or (W1 and S1 and Rxy(5))) and Cx(2)) or (((S1 and not E1 and not W1) or (S1 and E1 and Rxy(6)) or (S1 and W1 and Rxy(7))) and Cx(3))) ='0' and dst_addr /= cur_addr then packet_drop_in <= '1'; end if; elsif flit_type = "100" and empty = '0' and grants = '1' then Req_N_in <= '0'; Req_E_in <= '0'; Req_W_in <= '0'; Req_S_in <= '0'; Req_L_in <= '0'; else Req_N_in <= Req_N_FF; Req_E_in <= Req_E_FF; Req_W_in <= Req_W_FF; Req_S_in <= Req_S_FF; Req_L_in <= Req_L_FF; end if; if flit_type = "100" and empty = '0' then if packet_drop = '1' then packet_drop_in <= '0'; end if; end if; end process; packet_drop_order_sig <= packet_drop; END;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 09:39:43 10/04/2017 -- Design Name: -- Module Name: SEU - arqSEU -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values use IEEE.NUMERIC_STD.ALL; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity SEU is Port ( Instruction : in STD_LOGIC_VECTOR (31 downto 0); OUTSEU : out STD_LOGIC_VECTOR (31 downto 0)); end SEU; architecture arqSEU of SEU is begin process(Instruction) begin if(Instruction(12) = '1')then OUTSEU<= "1111111111111111111" & Instruction(12 downto 0); elsif(Instruction(12) = '0')then OUTSEU<= "0000000000000000000" & Instruction(12 downto 0); end if; end process; end arqSEU;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 09:39:43 10/04/2017 -- Design Name: -- Module Name: SEU - arqSEU -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values use IEEE.NUMERIC_STD.ALL; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity SEU is Port ( Instruction : in STD_LOGIC_VECTOR (31 downto 0); OUTSEU : out STD_LOGIC_VECTOR (31 downto 0)); end SEU; architecture arqSEU of SEU is begin process(Instruction) begin if(Instruction(12) = '1')then OUTSEU<= "1111111111111111111" & Instruction(12 downto 0); elsif(Instruction(12) = '0')then OUTSEU<= "0000000000000000000" & Instruction(12 downto 0); end if; end process; end arqSEU;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 09:39:43 10/04/2017 -- Design Name: -- Module Name: SEU - arqSEU -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values use IEEE.NUMERIC_STD.ALL; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity SEU is Port ( Instruction : in STD_LOGIC_VECTOR (31 downto 0); OUTSEU : out STD_LOGIC_VECTOR (31 downto 0)); end SEU; architecture arqSEU of SEU is begin process(Instruction) begin if(Instruction(12) = '1')then OUTSEU<= "1111111111111111111" & Instruction(12 downto 0); elsif(Instruction(12) = '0')then OUTSEU<= "0000000000000000000" & Instruction(12 downto 0); end if; end process; end arqSEU;
---------------------------------------------------------------------------------- -- Company: -- Engineer: -- -- Create Date: 09:39:43 10/04/2017 -- Design Name: -- Module Name: SEU - arqSEU -- Project Name: -- Target Devices: -- Tool versions: -- Description: -- -- Dependencies: -- -- Revision: -- Revision 0.01 - File Created -- Additional Comments: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; -- Uncomment the following library declaration if using -- arithmetic functions with Signed or Unsigned values use IEEE.NUMERIC_STD.ALL; -- Uncomment the following library declaration if instantiating -- any Xilinx primitives in this code. --library UNISIM; --use UNISIM.VComponents.all; entity SEU is Port ( Instruction : in STD_LOGIC_VECTOR (31 downto 0); OUTSEU : out STD_LOGIC_VECTOR (31 downto 0)); end SEU; architecture arqSEU of SEU is begin process(Instruction) begin if(Instruction(12) = '1')then OUTSEU<= "1111111111111111111" & Instruction(12 downto 0); elsif(Instruction(12) = '0')then OUTSEU<= "0000000000000000000" & Instruction(12 downto 0); end if; end process; end arqSEU;
-- -------------------------------------------------------------------- -- "fixed_pkg_c.vhdl" package contains functions for fixed point math. -- Please see the documentation for the fixed point package. -- This package should be compiled into "ieee_proposed" and used as follows: -- use ieee.std_logic_1164.all; -- use ieee.numeric_std.all; -- use ieee_proposed.fixed_float_types.all; -- use ieee_proposed.fixed_pkg.all; -- -- This verison is designed to work with the VHDL-93 compilers -- synthesis tools. Please note the "%%%" comments. These are where we -- diverge from the VHDL-200X LRM. -- -------------------------------------------------------------------- -- Version : $Revision: 2.0 $ -- Date : $Date: 2011/01/26 15:55:27 $ -- -------------------------------------------------------------------- use STD.TEXTIO.all; library IEEE; use IEEE.STD_LOGIC_1164.all; use IEEE.NUMERIC_STD.all; library IEEE_PROPOSED; use IEEE_PROPOSED.fixed_float_types.all; package fixed_pkg is -- generic ( -- Rounding routine to use in fixed point, fixed_round or fixed_truncate constant fixed_round_style : fixed_round_style_type := fixed_round; -- Overflow routine to use in fixed point, fixed_saturate or fixed_wrap constant fixed_overflow_style : fixed_overflow_style_type := fixed_saturate; -- Extra bits used in divide routines constant fixed_guard_bits : NATURAL := 3; -- If TRUE, then turn off warnings on "X" propagation constant no_warning : BOOLEAN := (false ); -- Author David Bishop (dbishop@vhdl.org) -- base Unsigned fixed point type, downto direction assumed type UNRESOLVED_ufixed is array (INTEGER range <>) of STD_ULOGIC; -- base Signed fixed point type, downto direction assumed type UNRESOLVED_sfixed is array (INTEGER range <>) of STD_ULOGIC; subtype U_ufixed is UNRESOLVED_ufixed; subtype U_sfixed is UNRESOLVED_sfixed; subtype ufixed is UNRESOLVED_ufixed; subtype sfixed is UNRESOLVED_sfixed; --=========================================================================== -- Arithmetic Operators: --=========================================================================== -- Absolute value, 2's complement -- abs sfixed(a downto b) = sfixed(a+1 downto b) function "abs" (arg : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- Negation, 2's complement -- - sfixed(a downto b) = sfixed(a+1 downto b) function "-" (arg : UNRESOLVED_sfixed)return UNRESOLVED_sfixed; -- Addition -- ufixed(a downto b) + ufixed(c downto d) -- = ufixed(maximum(a,c)+1 downto minimum(b,d)) function "+" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- sfixed(a downto b) + sfixed(c downto d) -- = sfixed(maximum(a,c)+1 downto minimum(b,d)) function "+" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- Subtraction -- ufixed(a downto b) - ufixed(c downto d) -- = ufixed(maximum(a,c)+1 downto minimum(b,d)) function "-" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- sfixed(a downto b) - sfixed(c downto d) -- = sfixed(maximum(a,c)+1 downto minimum(b,d)) function "-" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- Multiplication -- ufixed(a downto b) * ufixed(c downto d) = ufixed(a+c+1 downto b+d) function "" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- sfixed(a downto b) sfixed(c downto d) = sfixed(a+c+1 downto b+d) function "" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- Division -- ufixed(a downto b) / ufixed(c downto d) = ufixed(a-d downto b-c-1) function "/" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- sfixed(a downto b) / sfixed(c downto d) = sfixed(a-d+1 downto b-c) function "/" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- Remainder -- ufixed (a downto b) rem ufixed (c downto d) -- = ufixed (minimum(a,c) downto minimum(b,d)) function "rem" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- sfixed (a downto b) rem sfixed (c downto d) -- = sfixed (minimum(a,c) downto minimum(b,d)) function "rem" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- Modulo -- ufixed (a downto b) mod ufixed (c downto d) -- = ufixed (minimum(a,c) downto minimum(b, d)) function "mod" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- sfixed (a downto b) mod sfixed (c downto d) -- = sfixed (c downto minimum(b, d)) function "mod" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; ---------------------------------------------------------------------------- -- In these routines the "real" or "natural" (integer) -- are converted into a fixed point number and then the operation is -- performed. It is assumed that the array will be large enough. -- If the input is "real" then the real number is converted into a fixed of -- the same size as the fixed point input. If the number is an "integer" -- then it is converted into fixed with the range (l'high downto 0). ---------------------------------------------------------------------------- -- ufixed(a downto b) + ufixed(a downto b) = ufixed(a+1 downto b) function "+" (l : UNRESOLVED_ufixed; r : REAL) return UNRESOLVED_ufixed; -- ufixed(c downto d) + ufixed(c downto d) = ufixed(c+1 downto d) function "+" (l : REAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- ufixed(a downto b) + ufixed(a downto 0) = ufixed(a+1 downto minimum(0,b)) function "+" (l : UNRESOLVED_ufixed; r : NATURAL) return UNRESOLVED_ufixed; -- ufixed(a downto 0) + ufixed(c downto d) = ufixed(c+1 downto minimum(0,d)) function "+" (l : NATURAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- ufixed(a downto b) - ufixed(a downto b) = ufixed(a+1 downto b) function "-" (l : UNRESOLVED_ufixed; r : REAL) return UNRESOLVED_ufixed; -- ufixed(c downto d) - ufixed(c downto d) = ufixed(c+1 downto d) function "-" (l : REAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- ufixed(a downto b) - ufixed(a downto 0) = ufixed(a+1 downto minimum(0,b)) function "-" (l : UNRESOLVED_ufixed; r : NATURAL) return UNRESOLVED_ufixed; -- ufixed(a downto 0) + ufixed(c downto d) = ufixed(c+1 downto minimum(0,d)) function "-" (l : NATURAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- ufixed(a downto b) ufixed(a downto b) = ufixed(2a+1 downto 2b) function "" (l : UNRESOLVED_ufixed; r : REAL) return UNRESOLVED_ufixed; -- ufixed(c downto d) ufixed(c downto d) = ufixed(2c+1 downto 2d) function "" (l : REAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- ufixed (a downto b) ufixed (a downto 0) = ufixed (2a+1 downto b) function "" (l : UNRESOLVED_ufixed; r : NATURAL) return UNRESOLVED_ufixed; -- ufixed (a downto b) ufixed (a downto 0) = ufixed (2a+1 downto b) function "" (l : NATURAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- ufixed(a downto b) / ufixed(a downto b) = ufixed(a-b downto b-a-1) function "/" (l : UNRESOLVED_ufixed; r : REAL) return UNRESOLVED_ufixed; -- ufixed(a downto b) / ufixed(a downto b) = ufixed(a-b downto b-a-1) function "/" (l : REAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- ufixed(a downto b) / ufixed(a downto 0) = ufixed(a downto b-a-1) function "/" (l : UNRESOLVED_ufixed; r : NATURAL) return UNRESOLVED_ufixed; -- ufixed(c downto 0) / ufixed(c downto d) = ufixed(c-d downto -c-1) function "/" (l : NATURAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- ufixed (a downto b) rem ufixed (a downto b) = ufixed (a downto b) function "rem" (l : UNRESOLVED_ufixed; r : REAL) return UNRESOLVED_ufixed; -- ufixed (c downto d) rem ufixed (c downto d) = ufixed (c downto d) function "rem" (l : REAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- ufixed (a downto b) rem ufixed (a downto 0) = ufixed (a downto minimum(b,0)) function "rem" (l : UNRESOLVED_ufixed; r : NATURAL) return UNRESOLVED_ufixed; -- ufixed (c downto 0) rem ufixed (c downto d) = ufixed (c downto minimum(d,0)) function "rem" (l : NATURAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- ufixed (a downto b) mod ufixed (a downto b) = ufixed (a downto b) function "mod" (l : UNRESOLVED_ufixed; r : REAL) return UNRESOLVED_ufixed; -- ufixed (c downto d) mod ufixed (c downto d) = ufixed (c downto d) function "mod" (l : REAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- ufixed (a downto b) mod ufixed (a downto 0) = ufixed (a downto minimum(b,0)) function "mod" (l : UNRESOLVED_ufixed; r : NATURAL) return UNRESOLVED_ufixed; -- ufixed (c downto 0) mod ufixed (c downto d) = ufixed (c downto minimum(d,0)) function "mod" (l : NATURAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; -- sfixed(a downto b) + sfixed(a downto b) = sfixed(a+1 downto b) function "+" (l : UNRESOLVED_sfixed; r : REAL) return UNRESOLVED_sfixed; -- sfixed(c downto d) + sfixed(c downto d) = sfixed(c+1 downto d) function "+" (l : REAL; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- sfixed(a downto b) + sfixed(a downto 0) = sfixed(a+1 downto minimum(0,b)) function "+" (l : UNRESOLVED_sfixed; r : INTEGER) return UNRESOLVED_sfixed; -- sfixed(c downto 0) + sfixed(c downto d) = sfixed(c+1 downto minimum(0,d)) function "+" (l : INTEGER; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- sfixed(a downto b) - sfixed(a downto b) = sfixed(a+1 downto b) function "-" (l : UNRESOLVED_sfixed; r : REAL) return UNRESOLVED_sfixed; -- sfixed(c downto d) - sfixed(c downto d) = sfixed(c+1 downto d) function "-" (l : REAL; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- sfixed(a downto b) - sfixed(a downto 0) = sfixed(a+1 downto minimum(0,b)) function "-" (l : UNRESOLVED_sfixed; r : INTEGER) return UNRESOLVED_sfixed; -- sfixed(c downto 0) - sfixed(c downto d) = sfixed(c+1 downto minimum(0,d)) function "-" (l : INTEGER; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- sfixed(a downto b) sfixed(a downto b) = sfixed(2a+1 downto 2b) function "" (l : UNRESOLVED_sfixed; r : REAL) return UNRESOLVED_sfixed; -- sfixed(c downto d) sfixed(c downto d) = sfixed(2c+1 downto 2d) function "" (l : REAL; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- sfixed(a downto b) sfixed(a downto 0) = sfixed(2a+1 downto b) function "" (l : UNRESOLVED_sfixed; r : INTEGER) return UNRESOLVED_sfixed; -- sfixed(c downto 0) sfixed(c downto d) = sfixed(2c+1 downto d) function "" (l : INTEGER; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- sfixed(a downto b) / sfixed(a downto b) = sfixed(a-b+1 downto b-a) function "/" (l : UNRESOLVED_sfixed; r : REAL) return UNRESOLVED_sfixed; -- sfixed(c downto d) / sfixed(c downto d) = sfixed(c-d+1 downto d-c) function "/" (l : REAL; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- sfixed(a downto b) / sfixed(a downto 0) = sfixed(a+1 downto b-a) function "/" (l : UNRESOLVED_sfixed; r : INTEGER) return UNRESOLVED_sfixed; -- sfixed(c downto 0) / sfixed(c downto d) = sfixed(c-d+1 downto -c) function "/" (l : INTEGER; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- sfixed (a downto b) rem sfixed (a downto b) = sfixed (a downto b) function "rem" (l : UNRESOLVED_sfixed; r : REAL) return UNRESOLVED_sfixed; -- sfixed (c downto d) rem sfixed (c downto d) = sfixed (c downto d) function "rem" (l : REAL; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- sfixed (a downto b) rem sfixed (a downto 0) = sfixed (a downto minimum(b,0)) function "rem" (l : UNRESOLVED_sfixed; r : INTEGER) return UNRESOLVED_sfixed; -- sfixed (c downto 0) rem sfixed (c downto d) = sfixed (c downto minimum(d,0)) function "rem" (l : INTEGER; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- sfixed (a downto b) mod sfixed (a downto b) = sfixed (a downto b) function "mod" (l : UNRESOLVED_sfixed; r : REAL) return UNRESOLVED_sfixed; -- sfixed (c downto d) mod sfixed (c downto d) = sfixed (c downto d) function "mod" (l : REAL; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- sfixed (a downto b) mod sfixed (a downto 0) = sfixed (a downto minimum(b,0)) function "mod" (l : UNRESOLVED_sfixed; r : INTEGER) return UNRESOLVED_sfixed; -- sfixed (c downto 0) mod sfixed (c downto d) = sfixed (c downto minimum(d,0)) function "mod" (l : INTEGER; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- This version of divide gives the user more control -- ufixed(a downto b) / ufixed(c downto d) = ufixed(a-d downto b-c-1) function divide ( l, r : UNRESOLVED_ufixed; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_ufixed; -- This version of divide gives the user more control -- sfixed(a downto b) / sfixed(c downto d) = sfixed(a-d+1 downto b-c) function divide ( l, r : UNRESOLVED_sfixed; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_sfixed; -- These functions return 1/X -- 1 / ufixed(a downto b) = ufixed(-b downto -a-1) function reciprocal ( arg : UNRESOLVED_ufixed; -- fixed point input constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_ufixed; -- 1 / sfixed(a downto b) = sfixed(-b+1 downto -a) function reciprocal ( arg : UNRESOLVED_sfixed; -- fixed point input constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_sfixed; -- REM function -- ufixed (a downto b) rem ufixed (c downto d) -- = ufixed (minimum(a,c) downto minimum(b,d)) function remainder ( l, r : UNRESOLVED_ufixed; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_ufixed; -- sfixed (a downto b) rem sfixed (c downto d) -- = sfixed (minimum(a,c) downto minimum(b,d)) function remainder ( l, r : UNRESOLVED_sfixed; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_sfixed; -- mod function -- ufixed (a downto b) mod ufixed (c downto d) -- = ufixed (minimum(a,c) downto minimum(b, d)) function modulo ( l, r : UNRESOLVED_ufixed; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_ufixed; -- sfixed (a downto b) mod sfixed (c downto d) -- = sfixed (c downto minimum(b, d)) function modulo ( l, r : UNRESOLVED_sfixed; constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_sfixed; -- Procedure for those who need an "accumulator" function. -- add_carry (ufixed(a downto b), ufixed (c downto d)) -- = ufixed (maximum(a,c) downto minimum(b,d)) procedure add_carry ( L, R : in UNRESOLVED_ufixed; c_in : in STD_ULOGIC; result : out UNRESOLVED_ufixed; c_out : out STD_ULOGIC); -- add_carry (sfixed(a downto b), sfixed (c downto d)) -- = sfixed (maximum(a,c) downto minimum(b,d)) procedure add_carry ( L, R : in UNRESOLVED_sfixed; c_in : in STD_ULOGIC; result : out UNRESOLVED_sfixed; c_out : out STD_ULOGIC); -- Scales the result by a power of 2. Width of input = width of output with -- the binary point moved. function scalb (y : UNRESOLVED_ufixed; N : INTEGER) return UNRESOLVED_ufixed; function scalb (y : UNRESOLVED_ufixed; N : SIGNED) return UNRESOLVED_ufixed; function scalb (y : UNRESOLVED_sfixed; N : INTEGER) return UNRESOLVED_sfixed; function scalb (y : UNRESOLVED_sfixed; N : SIGNED) return UNRESOLVED_sfixed; function Is_Negative (arg : UNRESOLVED_sfixed) return BOOLEAN; --=========================================================================== -- Comparison Operators --=========================================================================== function ">" (l, r : UNRESOLVED_ufixed) return BOOLEAN; function ">" (l, r : UNRESOLVED_sfixed) return BOOLEAN; function "<" (l, r : UNRESOLVED_ufixed) return BOOLEAN; function "<" (l, r : UNRESOLVED_sfixed) return BOOLEAN; function "<=" (l, r : UNRESOLVED_ufixed) return BOOLEAN; function "<=" (l, r : UNRESOLVED_sfixed) return BOOLEAN; function ">=" (l, r : UNRESOLVED_ufixed) return BOOLEAN; function ">=" (l, r : UNRESOLVED_sfixed) return BOOLEAN; function "=" (l, r : UNRESOLVED_ufixed) return BOOLEAN; function "=" (l, r : UNRESOLVED_sfixed) return BOOLEAN; function "/=" (l, r : UNRESOLVED_ufixed) return BOOLEAN; function "/=" (l, r : UNRESOLVED_sfixed) return BOOLEAN; function \?=\ (l, r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?/=\ (l, r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?>\ (l, r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?>=\ (l, r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?<\ (l, r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?<=\ (l, r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?=\ (l, r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?/=\ (l, r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?>\ (l, r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?>=\ (l, r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?<\ (l, r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?<=\ (l, r : UNRESOLVED_sfixed) return STD_ULOGIC; function std_match (l, r : UNRESOLVED_ufixed) return BOOLEAN; function std_match (l, r : UNRESOLVED_sfixed) return BOOLEAN; -- Overloads the default "maximum" and "minimum" function function maximum (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function minimum (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function maximum (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function minimum (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; ---------------------------------------------------------------------------- -- In these compare functions a natural is converted into a -- fixed point number of the bounds "maximum(l'high,0) downto 0" ---------------------------------------------------------------------------- function "=" (l : UNRESOLVED_ufixed; r : NATURAL) return BOOLEAN; function "/=" (l : UNRESOLVED_ufixed; r : NATURAL) return BOOLEAN; function ">=" (l : UNRESOLVED_ufixed; r : NATURAL) return BOOLEAN; function "<=" (l : UNRESOLVED_ufixed; r : NATURAL) return BOOLEAN; function ">" (l : UNRESOLVED_ufixed; r : NATURAL) return BOOLEAN; function "<" (l : UNRESOLVED_ufixed; r : NATURAL) return BOOLEAN; function "=" (l : NATURAL; r : UNRESOLVED_ufixed) return BOOLEAN; function "/=" (l : NATURAL; r : UNRESOLVED_ufixed) return BOOLEAN; function ">=" (l : NATURAL; r : UNRESOLVED_ufixed) return BOOLEAN; function "<=" (l : NATURAL; r : UNRESOLVED_ufixed) return BOOLEAN; function ">" (l : NATURAL; r : UNRESOLVED_ufixed) return BOOLEAN; function "<" (l : NATURAL; r : UNRESOLVED_ufixed) return BOOLEAN; function \?=\ (l : UNRESOLVED_ufixed; r : NATURAL) return STD_ULOGIC; function \?/=\ (l : UNRESOLVED_ufixed; r : NATURAL) return STD_ULOGIC; function \?>=\ (l : UNRESOLVED_ufixed; r : NATURAL) return STD_ULOGIC; function \?<=\ (l : UNRESOLVED_ufixed; r : NATURAL) return STD_ULOGIC; function \?>\ (l : UNRESOLVED_ufixed; r : NATURAL) return STD_ULOGIC; function \?<\ (l : UNRESOLVED_ufixed; r : NATURAL) return STD_ULOGIC; function \?=\ (l : NATURAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?/=\ (l : NATURAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?>=\ (l : NATURAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?<=\ (l : NATURAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?>\ (l : NATURAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?<\ (l : NATURAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function maximum (l : UNRESOLVED_ufixed; r : NATURAL) return UNRESOLVED_ufixed; function minimum (l : UNRESOLVED_ufixed; r : NATURAL) return UNRESOLVED_ufixed; function maximum (l : NATURAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function minimum (l : NATURAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; ---------------------------------------------------------------------------- -- In these compare functions a real is converted into a -- fixed point number of the bounds "l'high+1 downto l'low" ---------------------------------------------------------------------------- function "=" (l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN; function "/=" (l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN; function ">=" (l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN; function "<=" (l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN; function ">" (l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN; function "<" (l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN; function "=" (l : REAL; r : UNRESOLVED_ufixed) return BOOLEAN; function "/=" (l : REAL; r : UNRESOLVED_ufixed) return BOOLEAN; function ">=" (l : REAL; r : UNRESOLVED_ufixed) return BOOLEAN; function "<=" (l : REAL; r : UNRESOLVED_ufixed) return BOOLEAN; function ">" (l : REAL; r : UNRESOLVED_ufixed) return BOOLEAN; function "<" (l : REAL; r : UNRESOLVED_ufixed) return BOOLEAN; function \?=\ (l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC; function \?/=\ (l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC; function \?>=\ (l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC; function \?<=\ (l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC; function \?>\ (l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC; function \?<\ (l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC; function \?=\ (l : REAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?/=\ (l : REAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?>=\ (l : REAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?<=\ (l : REAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?>\ (l : REAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function \?<\ (l : REAL; r : UNRESOLVED_ufixed) return STD_ULOGIC; function maximum (l : UNRESOLVED_ufixed; r : REAL) return UNRESOLVED_ufixed; function maximum (l : REAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function minimum (l : UNRESOLVED_ufixed; r : REAL) return UNRESOLVED_ufixed; function minimum (l : REAL; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; ---------------------------------------------------------------------------- -- In these compare functions an integer is converted into a -- fixed point number of the bounds "maximum(l'high,1) downto 0" ---------------------------------------------------------------------------- function "=" (l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN; function "/=" (l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN; function ">=" (l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN; function "<=" (l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN; function ">" (l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN; function "<" (l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN; function "=" (l : INTEGER; r : UNRESOLVED_sfixed) return BOOLEAN; function "/=" (l : INTEGER; r : UNRESOLVED_sfixed) return BOOLEAN; function ">=" (l : INTEGER; r : UNRESOLVED_sfixed) return BOOLEAN; function "<=" (l : INTEGER; r : UNRESOLVED_sfixed) return BOOLEAN; function ">" (l : INTEGER; r : UNRESOLVED_sfixed) return BOOLEAN; function "<" (l : INTEGER; r : UNRESOLVED_sfixed) return BOOLEAN; function \?=\ (l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC; function \?/=\ (l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC; function \?>=\ (l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC; function \?<=\ (l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC; function \?>\ (l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC; function \?<\ (l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC; function \?=\ (l : INTEGER; r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?/=\ (l : INTEGER; r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?>=\ (l : INTEGER; r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?<=\ (l : INTEGER; r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?>\ (l : INTEGER; r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?<\ (l : INTEGER; r : UNRESOLVED_sfixed) return STD_ULOGIC; function maximum (l : UNRESOLVED_sfixed; r : INTEGER) return UNRESOLVED_sfixed; function maximum (l : INTEGER; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function minimum (l : UNRESOLVED_sfixed; r : INTEGER) return UNRESOLVED_sfixed; function minimum (l : INTEGER; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; ---------------------------------------------------------------------------- -- In these compare functions a real is converted into a -- fixed point number of the bounds "l'high+1 downto l'low" ---------------------------------------------------------------------------- function "=" (l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN; function "/=" (l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN; function ">=" (l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN; function "<=" (l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN; function ">" (l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN; function "<" (l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN; function "=" (l : REAL; r : UNRESOLVED_sfixed) return BOOLEAN; function "/=" (l : REAL; r : UNRESOLVED_sfixed) return BOOLEAN; function ">=" (l : REAL; r : UNRESOLVED_sfixed) return BOOLEAN; function "<=" (l : REAL; r : UNRESOLVED_sfixed) return BOOLEAN; function ">" (l : REAL; r : UNRESOLVED_sfixed) return BOOLEAN; function "<" (l : REAL; r : UNRESOLVED_sfixed) return BOOLEAN; function \?=\ (l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC; function \?/=\ (l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC; function \?>=\ (l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC; function \?<=\ (l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC; function \?>\ (l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC; function \?<\ (l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC; function \?=\ (l : REAL; r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?/=\ (l : REAL; r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?>=\ (l : REAL; r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?<=\ (l : REAL; r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?>\ (l : REAL; r : UNRESOLVED_sfixed) return STD_ULOGIC; function \?<\ (l : REAL; r : UNRESOLVED_sfixed) return STD_ULOGIC; function maximum (l : UNRESOLVED_sfixed; r : REAL) return UNRESOLVED_sfixed; function maximum (l : REAL; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function minimum (l : UNRESOLVED_sfixed; r : REAL) return UNRESOLVED_sfixed; function minimum (l : REAL; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; --=========================================================================== -- Shift and Rotate Functions. -- Note that sra and sla are not the same as the BIT_VECTOR version --=========================================================================== function "sll" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed; function "srl" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed; function "rol" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed; function "ror" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed; function "sla" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed; function "sra" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed; function "sll" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed; function "srl" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed; function "rol" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed; function "ror" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed; function "sla" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed; function "sra" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed; function SHIFT_LEFT (ARG : UNRESOLVED_ufixed; COUNT : NATURAL) return UNRESOLVED_ufixed; function SHIFT_RIGHT (ARG : UNRESOLVED_ufixed; COUNT : NATURAL) return UNRESOLVED_ufixed; function SHIFT_LEFT (ARG : UNRESOLVED_sfixed; COUNT : NATURAL) return UNRESOLVED_sfixed; function SHIFT_RIGHT (ARG : UNRESOLVED_sfixed; COUNT : NATURAL) return UNRESOLVED_sfixed; ---------------------------------------------------------------------------- -- logical functions ---------------------------------------------------------------------------- function "not" (l : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "and" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "or" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "nand" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "nor" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "xor" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "xnor" (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "not" (l : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "and" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "or" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "nand" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "nor" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "xor" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "xnor" (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- Vector and std_ulogic functions, same as functions in numeric_std function "and" (l : STD_ULOGIC; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "and" (l : UNRESOLVED_ufixed; r : STD_ULOGIC) return UNRESOLVED_ufixed; function "or" (l : STD_ULOGIC; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "or" (l : UNRESOLVED_ufixed; r : STD_ULOGIC) return UNRESOLVED_ufixed; function "nand" (l : STD_ULOGIC; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "nand" (l : UNRESOLVED_ufixed; r : STD_ULOGIC) return UNRESOLVED_ufixed; function "nor" (l : STD_ULOGIC; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "nor" (l : UNRESOLVED_ufixed; r : STD_ULOGIC) return UNRESOLVED_ufixed; function "xor" (l : STD_ULOGIC; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "xor" (l : UNRESOLVED_ufixed; r : STD_ULOGIC) return UNRESOLVED_ufixed; function "xnor" (l : STD_ULOGIC; r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function "xnor" (l : UNRESOLVED_ufixed; r : STD_ULOGIC) return UNRESOLVED_ufixed; function "and" (l : STD_ULOGIC; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "and" (l : UNRESOLVED_sfixed; r : STD_ULOGIC) return UNRESOLVED_sfixed; function "or" (l : STD_ULOGIC; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "or" (l : UNRESOLVED_sfixed; r : STD_ULOGIC) return UNRESOLVED_sfixed; function "nand" (l : STD_ULOGIC; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "nand" (l : UNRESOLVED_sfixed; r : STD_ULOGIC) return UNRESOLVED_sfixed; function "nor" (l : STD_ULOGIC; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "nor" (l : UNRESOLVED_sfixed; r : STD_ULOGIC) return UNRESOLVED_sfixed; function "xor" (l : STD_ULOGIC; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "xor" (l : UNRESOLVED_sfixed; r : STD_ULOGIC) return UNRESOLVED_sfixed; function "xnor" (l : STD_ULOGIC; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function "xnor" (l : UNRESOLVED_sfixed; r : STD_ULOGIC) return UNRESOLVED_sfixed; -- Reduction operators, same as numeric_std functions function and_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC; function nand_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC; function or_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC; function nor_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC; function xor_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC; function xnor_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC; function and_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC; function nand_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC; function or_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC; function nor_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC; function xor_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC; function xnor_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC; -- returns arg'low-1 if not found function find_leftmost (arg : UNRESOLVED_ufixed; y : STD_ULOGIC) return INTEGER; function find_leftmost (arg : UNRESOLVED_sfixed; y : STD_ULOGIC) return INTEGER; -- returns arg'high+1 if not found function find_rightmost (arg : UNRESOLVED_ufixed; y : STD_ULOGIC) return INTEGER; function find_rightmost (arg : UNRESOLVED_sfixed; y : STD_ULOGIC) return INTEGER; --=========================================================================== -- RESIZE Functions --=========================================================================== -- resizes the number (larger or smaller) -- The returned result will be ufixed (left_index downto right_index) -- If "round_style" is fixed_round, then the result will be rounded. -- If the MSB of the remainder is a "1" AND the LSB of the unrounded result -- is a '1' or the lower bits of the remainder include a '1' then the result -- will be increased by the smallest representable number for that type. -- "overflow_style" can be fixed_saturate or fixed_wrap. -- In saturate mode, if the number overflows then the largest possible -- representable number is returned. If wrap mode, then the upper bits -- of the number are truncated. function resize ( arg : UNRESOLVED_ufixed; -- input constant left_index : INTEGER; -- integer portion constant right_index : INTEGER; -- size of fraction constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed; -- "size_res" functions create the size of the output from the indices -- of the "size_res" input. The actual value of "size_res" is not used. function resize ( arg : UNRESOLVED_ufixed; -- input size_res : UNRESOLVED_ufixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed; -- Note that in "wrap" mode the sign bit is not replicated. Thus the -- resize of a negative number can have a positive result in wrap mode. function resize ( arg : UNRESOLVED_sfixed; -- input constant left_index : INTEGER; -- integer portion constant right_index : INTEGER; -- size of fraction constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed; function resize ( arg : UNRESOLVED_sfixed; -- input size_res : UNRESOLVED_sfixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed; --=========================================================================== -- Conversion Functions --=========================================================================== -- integer (natural) to unsigned fixed point. -- arguments are the upper and lower bounds of the number, thus -- ufixed (7 downto -3) <= to_ufixed (int, 7, -3); function to_ufixed ( arg : NATURAL; -- integer constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER := 0; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed; function to_ufixed ( arg : NATURAL; -- integer size_res : UNRESOLVED_ufixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed; -- real to unsigned fixed point function to_ufixed ( arg : REAL; -- real constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_ufixed; function to_ufixed ( arg : REAL; -- real size_res : UNRESOLVED_ufixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_ufixed; -- unsigned to unsigned fixed point function to_ufixed ( arg : UNSIGNED; -- unsigned constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER := 0; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed; function to_ufixed ( arg : UNSIGNED; -- unsigned size_res : UNRESOLVED_ufixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed; -- Performs a conversion. ufixed (arg'range) is returned function to_ufixed ( arg : UNSIGNED) -- unsigned return UNRESOLVED_ufixed; -- unsigned fixed point to unsigned function to_unsigned ( arg : UNRESOLVED_ufixed; -- fixed point input constant size : NATURAL; -- length of output constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNSIGNED; -- unsigned fixed point to unsigned function to_unsigned ( arg : UNRESOLVED_ufixed; -- fixed point input size_res : UNSIGNED; -- used for length of output constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNSIGNED; -- unsigned fixed point to real function to_real ( arg : UNRESOLVED_ufixed) -- fixed point input return REAL; -- unsigned fixed point to integer function to_integer ( arg : UNRESOLVED_ufixed; -- fixed point input constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return NATURAL; -- Integer to UNRESOLVED_sfixed function to_sfixed ( arg : INTEGER; -- integer constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER := 0; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed; function to_sfixed ( arg : INTEGER; -- integer size_res : UNRESOLVED_sfixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed; -- Real to sfixed function to_sfixed ( arg : REAL; -- real constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_sfixed; function to_sfixed ( arg : REAL; -- real size_res : UNRESOLVED_sfixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_sfixed; -- signed to sfixed function to_sfixed ( arg : SIGNED; -- signed constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER := 0; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed; function to_sfixed ( arg : SIGNED; -- signed size_res : UNRESOLVED_sfixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed; -- signed to sfixed (output assumed to be size of signed input) function to_sfixed ( arg : SIGNED) -- signed return UNRESOLVED_sfixed; -- Conversion from ufixed to sfixed function to_sfixed ( arg : UNRESOLVED_ufixed) return UNRESOLVED_sfixed; -- signed fixed point to signed function to_signed ( arg : UNRESOLVED_sfixed; -- fixed point input constant size : NATURAL; -- length of output constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return SIGNED; -- signed fixed point to signed function to_signed ( arg : UNRESOLVED_sfixed; -- fixed point input size_res : SIGNED; -- used for length of output constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return SIGNED; -- signed fixed point to real function to_real ( arg : UNRESOLVED_sfixed) -- fixed point input return REAL; -- signed fixed point to integer function to_integer ( arg : UNRESOLVED_sfixed; -- fixed point input constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return INTEGER; -- Because of the fairly complicated sizing rules in the fixed point -- packages these functions are provided to compute the result ranges -- Example: -- signal uf1 : ufixed (3 downto -3); -- signal uf2 : ufixed (4 downto -2); -- signal uf1multuf2 : ufixed (ufixed_high (3, -3, '', 4, -2) downto -- ufixed_low (3, -3, '', 4, -2)); -- uf1multuf2 <= uf1 uf2; -- Valid characters: '+', '-', '', '/', 'r' or 'R' (rem), 'm' or 'M' (mod), -- '1' (reciprocal), 'a' or 'A' (abs), 'n' or 'N' (unary -) function ufixed_high (left_index, right_index : INTEGER; operation : CHARACTER := 'X'; left_index2, right_index2 : INTEGER := 0) return INTEGER; function ufixed_low (left_index, right_index : INTEGER; operation : CHARACTER := 'X'; left_index2, right_index2 : INTEGER := 0) return INTEGER; function sfixed_high (left_index, right_index : INTEGER; operation : CHARACTER := 'X'; left_index2, right_index2 : INTEGER := 0) return INTEGER; function sfixed_low (left_index, right_index : INTEGER; operation : CHARACTER := 'X'; left_index2, right_index2 : INTEGER := 0) return INTEGER; -- Same as above, but using the "size_res" input only for their ranges: -- signal uf1multuf2 : ufixed (ufixed_high (uf1, '', uf2) downto -- ufixed_low (uf1, '', uf2)); -- uf1multuf2 <= uf1 uf2; -- function ufixed_high (size_res : UNRESOLVED_ufixed; operation : CHARACTER := 'X'; size_res2 : UNRESOLVED_ufixed) return INTEGER; function ufixed_low (size_res : UNRESOLVED_ufixed; operation : CHARACTER := 'X'; size_res2 : UNRESOLVED_ufixed) return INTEGER; function sfixed_high (size_res : UNRESOLVED_sfixed; operation : CHARACTER := 'X'; size_res2 : UNRESOLVED_sfixed) return INTEGER; function sfixed_low (size_res : UNRESOLVED_sfixed; operation : CHARACTER := 'X'; size_res2 : UNRESOLVED_sfixed) return INTEGER; -- purpose: returns a saturated number function saturate ( constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed; -- purpose: returns a saturated number function saturate ( constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed; function saturate ( size_res : UNRESOLVED_ufixed) -- only the size of this is used return UNRESOLVED_ufixed; function saturate ( size_res : UNRESOLVED_sfixed) -- only the size of this is used return UNRESOLVED_sfixed; --=========================================================================== -- Translation Functions --=========================================================================== -- maps meta-logical values function to_01 ( s : UNRESOLVED_ufixed; -- fixed point input constant XMAP : STD_ULOGIC := '0') -- Map x to return UNRESOLVED_ufixed; -- maps meta-logical values function to_01 ( s : UNRESOLVED_sfixed; -- fixed point input constant XMAP : STD_ULOGIC := '0') -- Map x to return UNRESOLVED_sfixed; function Is_X (arg : UNRESOLVED_ufixed) return BOOLEAN; function Is_X (arg : UNRESOLVED_sfixed) return BOOLEAN; function to_X01 (arg : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function to_X01 (arg : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function to_X01Z (arg : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function to_X01Z (arg : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; function to_UX01 (arg : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; function to_UX01 (arg : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; -- straight vector conversion routines, needed for synthesis. -- These functions are here so that a std_logic_vector can be -- converted to and from sfixed and ufixed. Note that you can -- not convert these vectors because of their negative index. function to_slv ( arg : UNRESOLVED_ufixed) -- fixed point vector return STD_LOGIC_VECTOR; alias to_StdLogicVector is to_slv [UNRESOLVED_ufixed return STD_LOGIC_VECTOR]; alias to_Std_Logic_Vector is to_slv [UNRESOLVED_ufixed return STD_LOGIC_VECTOR]; function to_slv ( arg : UNRESOLVED_sfixed) -- fixed point vector return STD_LOGIC_VECTOR; alias to_StdLogicVector is to_slv [UNRESOLVED_sfixed return STD_LOGIC_VECTOR]; alias to_Std_Logic_Vector is to_slv [UNRESOLVED_sfixed return STD_LOGIC_VECTOR]; function to_sulv ( arg : UNRESOLVED_ufixed) -- fixed point vector return STD_ULOGIC_VECTOR; alias to_StdULogicVector is to_sulv [UNRESOLVED_ufixed return STD_ULOGIC_VECTOR]; alias to_Std_ULogic_Vector is to_sulv [UNRESOLVED_ufixed return STD_ULOGIC_VECTOR]; function to_sulv ( arg : UNRESOLVED_sfixed) -- fixed point vector return STD_ULOGIC_VECTOR; alias to_StdULogicVector is to_sulv [UNRESOLVED_sfixed return STD_ULOGIC_VECTOR]; alias to_Std_ULogic_Vector is to_sulv [UNRESOLVED_sfixed return STD_ULOGIC_VECTOR]; function to_ufixed ( arg : STD_ULOGIC_VECTOR; -- shifted vector constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed; function to_ufixed ( arg : STD_ULOGIC_VECTOR; -- shifted vector size_res : UNRESOLVED_ufixed) -- for size only return UNRESOLVED_ufixed; function to_sfixed ( arg : STD_ULOGIC_VECTOR; -- shifted vector constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed; function to_sfixed ( arg : STD_ULOGIC_VECTOR; -- shifted vector size_res : UNRESOLVED_sfixed) -- for size only return UNRESOLVED_sfixed; -- As a concession to those who use a graphical DSP environment, -- these functions take parameters in those tools format and create -- fixed point numbers. These functions are designed to convert from -- a std_logic_vector to the VHDL fixed point format using the conventions -- of these packages. In a pure VHDL environment you should use the -- "to_ufixed" and "to_sfixed" routines. -- unsigned fixed point function to_UFix ( arg : STD_ULOGIC_VECTOR; width : NATURAL; -- width of vector fraction : NATURAL) -- width of fraction return UNRESOLVED_ufixed; -- signed fixed point function to_SFix ( arg : STD_ULOGIC_VECTOR; width : NATURAL; -- width of vector fraction : NATURAL) -- width of fraction return UNRESOLVED_sfixed; -- finding the bounds of a number. These functions can be used like this: -- signal xxx : ufixed (7 downto -3); -- -- Which is the same as "ufixed (UFix_high (11,3) downto UFix_low(11,3))" -- signal yyy : ufixed (UFix_high (11, 3, "+", 11, 3) -- downto UFix_low(11, 3, "+", 11, 3)); -- Where "11" is the width of xxx (xxx'length), -- and 3 is the lower bound (abs (xxx'low)) -- In a pure VHDL environment use "ufixed_high" and "ufixed_low" function UFix_high (width, fraction : NATURAL; operation : CHARACTER := 'X'; width2, fraction2 : NATURAL := 0) return INTEGER; function UFix_low (width, fraction : NATURAL; operation : CHARACTER := 'X'; width2, fraction2 : NATURAL := 0) return INTEGER; -- Same as above but for signed fixed point. Note that the width -- of a signed fixed point number ignores the sign bit, thus -- width = sxxx'length-1 function SFix_high (width, fraction : NATURAL; operation : CHARACTER := 'X'; width2, fraction2 : NATURAL := 0) return INTEGER; function SFix_low (width, fraction : NATURAL; operation : CHARACTER := 'X'; width2, fraction2 : NATURAL := 0) return INTEGER; -- rtl_synthesis off -- pragma synthesis_off --=========================================================================== -- string and textio Functions --=========================================================================== -- purpose: writes fixed point into a line procedure WRITE ( L : inout LINE; -- input line VALUE : in UNRESOLVED_ufixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0); -- purpose: writes fixed point into a line procedure WRITE ( L : inout LINE; -- input line VALUE : in UNRESOLVED_sfixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0); procedure READ(L : inout LINE; VALUE : out UNRESOLVED_ufixed); procedure READ(L : inout LINE; VALUE : out UNRESOLVED_ufixed; GOOD : out BOOLEAN); procedure READ(L : inout LINE; VALUE : out UNRESOLVED_sfixed); procedure READ(L : inout LINE; VALUE : out UNRESOLVED_sfixed; GOOD : out BOOLEAN); alias bwrite is WRITE [LINE, UNRESOLVED_ufixed, SIDE, width]; alias bwrite is WRITE [LINE, UNRESOLVED_sfixed, SIDE, width]; alias bread is READ [LINE, UNRESOLVED_ufixed]; alias bread is READ [LINE, UNRESOLVED_ufixed, BOOLEAN]; alias bread is READ [LINE, UNRESOLVED_sfixed]; alias bread is READ [LINE, UNRESOLVED_sfixed, BOOLEAN]; alias BINARY_WRITE is WRITE [LINE, UNRESOLVED_ufixed, SIDE, width]; alias BINARY_WRITE is WRITE [LINE, UNRESOLVED_sfixed, SIDE, width]; alias BINARY_READ is READ [LINE, UNRESOLVED_ufixed, BOOLEAN]; alias BINARY_READ is READ [LINE, UNRESOLVED_ufixed]; alias BINARY_READ is READ [LINE, UNRESOLVED_sfixed, BOOLEAN]; alias BINARY_READ is READ [LINE, UNRESOLVED_sfixed]; -- octal read and write procedure OWRITE ( L : inout LINE; -- input line VALUE : in UNRESOLVED_ufixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0); procedure OWRITE ( L : inout LINE; -- input line VALUE : in UNRESOLVED_sfixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0); procedure OREAD(L : inout LINE; VALUE : out UNRESOLVED_ufixed); procedure OREAD(L : inout LINE; VALUE : out UNRESOLVED_ufixed; GOOD : out BOOLEAN); procedure OREAD(L : inout LINE; VALUE : out UNRESOLVED_sfixed); procedure OREAD(L : inout LINE; VALUE : out UNRESOLVED_sfixed; GOOD : out BOOLEAN); alias OCTAL_READ is OREAD [LINE, UNRESOLVED_ufixed, BOOLEAN]; alias OCTAL_READ is OREAD [LINE, UNRESOLVED_ufixed]; alias OCTAL_READ is OREAD [LINE, UNRESOLVED_sfixed, BOOLEAN]; alias OCTAL_READ is OREAD [LINE, UNRESOLVED_sfixed]; alias OCTAL_WRITE is OWRITE [LINE, UNRESOLVED_ufixed, SIDE, WIDTH]; alias OCTAL_WRITE is OWRITE [LINE, UNRESOLVED_sfixed, SIDE, WIDTH]; -- hex read and write procedure HWRITE ( L : inout LINE; -- input line VALUE : in UNRESOLVED_ufixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0); -- purpose: writes fixed point into a line procedure HWRITE ( L : inout LINE; -- input line VALUE : in UNRESOLVED_sfixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0); procedure HREAD(L : inout LINE; VALUE : out UNRESOLVED_ufixed); procedure HREAD(L : inout LINE; VALUE : out UNRESOLVED_ufixed; GOOD : out BOOLEAN); procedure HREAD(L : inout LINE; VALUE : out UNRESOLVED_sfixed); procedure HREAD(L : inout LINE; VALUE : out UNRESOLVED_sfixed; GOOD : out BOOLEAN); alias HEX_READ is HREAD [LINE, UNRESOLVED_ufixed, BOOLEAN]; alias HEX_READ is HREAD [LINE, UNRESOLVED_sfixed, BOOLEAN]; alias HEX_READ is HREAD [LINE, UNRESOLVED_ufixed]; alias HEX_READ is HREAD [LINE, UNRESOLVED_sfixed]; alias HEX_WRITE is HWRITE [LINE, UNRESOLVED_ufixed, SIDE, WIDTH]; alias HEX_WRITE is HWRITE [LINE, UNRESOLVED_sfixed, SIDE, WIDTH]; -- returns a string, useful for: -- assert (x = y) report "error found " & to_string(x) severity error; function to_string (value : UNRESOLVED_ufixed) return STRING; alias to_bstring is to_string [UNRESOLVED_ufixed return STRING]; alias TO_BINARY_STRING is TO_STRING [UNRESOLVED_ufixed return STRING]; function to_ostring (value : UNRESOLVED_ufixed) return STRING; alias TO_OCTAL_STRING is TO_OSTRING [UNRESOLVED_ufixed return STRING]; function to_hstring (value : UNRESOLVED_ufixed) return STRING; alias TO_HEX_STRING is TO_HSTRING [UNRESOLVED_ufixed return STRING]; function to_string (value : UNRESOLVED_sfixed) return STRING; alias to_bstring is to_string [UNRESOLVED_sfixed return STRING]; alias TO_BINARY_STRING is TO_STRING [UNRESOLVED_sfixed return STRING]; function to_ostring (value : UNRESOLVED_sfixed) return STRING; alias TO_OCTAL_STRING is TO_OSTRING [UNRESOLVED_sfixed return STRING]; function to_hstring (value : UNRESOLVED_sfixed) return STRING; alias TO_HEX_STRING is TO_HSTRING [UNRESOLVED_sfixed return STRING]; -- From string functions allow you to convert a string into a fixed -- point number. Example: -- signal uf1 : ufixed (3 downto -3); -- uf1 <= from_string ("0110.100", uf1'high, uf1'low); -- 6.5 -- The "." is optional in this syntax, however it exist and is -- in the wrong location an error is produced. Overflow will -- result in saturation. function from_string ( bstring : STRING; -- binary string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed; alias from_bstring is from_string [STRING, INTEGER, INTEGER return UNRESOLVED_ufixed]; alias from_binary_string is from_string [STRING, INTEGER, INTEGER return UNRESOLVED_ufixed]; -- Octal and hex conversions work as follows: -- uf1 <= from_hstring ("6.8", 3, -3); -- 6.5 (bottom zeros dropped) -- uf1 <= from_ostring ("06.4", 3, -3); -- 6.5 (top zeros dropped) function from_ostring ( ostring : STRING; -- Octal string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed; alias from_octal_string is from_ostring [STRING, INTEGER, INTEGER return UNRESOLVED_ufixed]; function from_hstring ( hstring : STRING; -- hex string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed; alias from_hex_string is from_hstring [STRING, INTEGER, INTEGER return UNRESOLVED_ufixed]; function from_string ( bstring : STRING; -- binary string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed; alias from_bstring is from_string [STRING, INTEGER, INTEGER return UNRESOLVED_sfixed]; alias from_binary_string is from_string [STRING, INTEGER, INTEGER return UNRESOLVED_sfixed]; function from_ostring ( ostring : STRING; -- Octal string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed; alias from_octal_string is from_ostring [STRING, INTEGER, INTEGER return UNRESOLVED_sfixed]; function from_hstring ( hstring : STRING; -- hex string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed; alias from_hex_string is from_hstring [STRING, INTEGER, INTEGER return UNRESOLVED_sfixed]; -- Same as above, "size_res" is used for it's range only. function from_string ( bstring : STRING; -- binary string size_res : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; alias from_bstring is from_string [STRING, UNRESOLVED_ufixed return UNRESOLVED_ufixed]; alias from_binary_string is from_string [STRING, UNRESOLVED_ufixed return UNRESOLVED_ufixed]; function from_ostring ( ostring : STRING; -- Octal string size_res : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; alias from_octal_string is from_ostring [STRING, UNRESOLVED_ufixed return UNRESOLVED_ufixed]; function from_hstring ( hstring : STRING; -- hex string size_res : UNRESOLVED_ufixed) return UNRESOLVED_ufixed; alias from_hex_string is from_hstring [STRING, UNRESOLVED_ufixed return UNRESOLVED_ufixed]; function from_string ( bstring : STRING; -- binary string size_res : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; alias from_bstring is from_string [STRING, UNRESOLVED_sfixed return UNRESOLVED_sfixed]; alias from_binary_string is from_string [STRING, UNRESOLVED_sfixed return UNRESOLVED_sfixed]; function from_ostring ( ostring : STRING; -- Octal string size_res : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; alias from_octal_string is from_ostring [STRING, UNRESOLVED_sfixed return UNRESOLVED_sfixed]; function from_hstring ( hstring : STRING; -- hex string size_res : UNRESOLVED_sfixed) return UNRESOLVED_sfixed; alias from_hex_string is from_hstring [STRING, UNRESOLVED_sfixed return UNRESOLVED_sfixed]; -- Direct conversion functions. Example: -- signal uf1 : ufixed (3 downto -3); -- uf1 <= from_string ("0110.100"); -- 6.5 -- In this case the "." is not optional, and the size of -- the output must match exactly. function from_string ( bstring : STRING) -- binary string return UNRESOLVED_ufixed; alias from_bstring is from_string [STRING return UNRESOLVED_ufixed]; alias from_binary_string is from_string [STRING return UNRESOLVED_ufixed]; -- Direct octal and hex conversion functions. In this case -- the string lengths must match. Example: -- signal sf1 := sfixed (5 downto -3); -- sf1 <= from_ostring ("71.4") -- -6.5 function from_ostring ( ostring : STRING) -- Octal string return UNRESOLVED_ufixed; alias from_octal_string is from_ostring [STRING return UNRESOLVED_ufixed]; function from_hstring ( hstring : STRING) -- hex string return UNRESOLVED_ufixed; alias from_hex_string is from_hstring [STRING return UNRESOLVED_ufixed]; function from_string ( bstring : STRING) -- binary string return UNRESOLVED_sfixed; alias from_bstring is from_string [STRING return UNRESOLVED_sfixed]; alias from_binary_string is from_string [STRING return UNRESOLVED_sfixed]; function from_ostring ( ostring : STRING) -- Octal string return UNRESOLVED_sfixed; alias from_octal_string is from_ostring [STRING return UNRESOLVED_sfixed]; function from_hstring ( hstring : STRING) -- hex string return UNRESOLVED_sfixed; alias from_hex_string is from_hstring [STRING return UNRESOLVED_sfixed]; -- rtl_synthesis on -- pragma synthesis_on -- IN VHDL-2006 std_logic_vector is a subtype of std_ulogic_vector, so these -- extra functions are needed for compatability. function to_ufixed ( arg : STD_LOGIC_VECTOR; -- shifted vector constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed; function to_ufixed ( arg : STD_LOGIC_VECTOR; -- shifted vector size_res : UNRESOLVED_ufixed) -- for size only return UNRESOLVED_ufixed; function to_sfixed ( arg : STD_LOGIC_VECTOR; -- shifted vector constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed; function to_sfixed ( arg : STD_LOGIC_VECTOR; -- shifted vector size_res : UNRESOLVED_sfixed) -- for size only return UNRESOLVED_sfixed; -- unsigned fixed point function to_UFix ( arg : STD_LOGIC_VECTOR; width : NATURAL; -- width of vector fraction : NATURAL) -- width of fraction return UNRESOLVED_ufixed; -- signed fixed point function to_SFix ( arg : STD_LOGIC_VECTOR; width : NATURAL; -- width of vector fraction : NATURAL) -- width of fraction return UNRESOLVED_sfixed; end package fixed_pkg; ------------------------------------------------------------------------------- -- Proposed package body for the VHDL-200x-FT fixed_pkg package -- (Fixed point math package) -- This package body supplies a recommended implementation of these functions -- Version : $Revision: 2.0 $ -- Date : $Date: 2011/01/26 15:55:27 $ -- -- Created for VHDL-200X-ft, David Bishop (dbishop@vhdl.org) ------------------------------------------------------------------------------- library IEEE; use IEEE.MATH_REAL.all; package body fixed_pkg is -- Author David Bishop (dbishop@vhdl.org) -- Other contributers: Jim Lewis, Yannick Grugni, Ryan W. Hilton -- null array constants constant NAUF : UNRESOLVED_ufixed (0 downto 1) := (others => '0'); constant NASF : UNRESOLVED_sfixed (0 downto 1) := (others => '0'); constant NSLV : STD_ULOGIC_VECTOR (0 downto 1) := (others => '0'); -- This differed constant will tell you if the package body is synthesizable -- or implemented as real numbers, set to "true" if synthesizable. constant fixedsynth_or_real : BOOLEAN := true; -- %%% Replicated functions function maximum ( l, r : integer) -- inputs return integer is begin -- function max if l > r then return l; else return r; end if; end function maximum; function minimum ( l, r : integer) -- inputs return integer is begin -- function min if l > r then return r; else return l; end if; end function minimum; function "sra" (arg : SIGNED; count : INTEGER) return SIGNED is begin if (COUNT >= 0) then return SHIFT_RIGHT(arg, count); else return SHIFT_LEFT(arg, -count); end if; end function "sra"; function or_reduce (arg : STD_ULOGIC_VECTOR) return STD_LOGIC is variable Upper, Lower : STD_ULOGIC; variable Half : INTEGER; variable BUS_int : STD_ULOGIC_VECTOR (arg'length - 1 downto 0); variable Result : STD_ULOGIC; begin if (arg'length < 1) then -- In the case of a NULL range Result := '0'; else BUS_int := to_ux01 (arg); if (BUS_int'length = 1) then Result := BUS_int (BUS_int'left); elsif (BUS_int'length = 2) then Result := BUS_int (BUS_int'right) or BUS_int (BUS_int'left); else Half := (BUS_int'length + 1) / 2 + BUS_int'right; Upper := or_reduce (BUS_int (BUS_int'left downto Half)); Lower := or_reduce (BUS_int (Half - 1 downto BUS_int'right)); Result := Upper or Lower; end if; end if; return Result; end function or_reduce; -- purpose: AND all of the bits in a vector together -- This is a copy of the proposed "and_reduce" from 1076.3 function and_reduce (arg : STD_ULOGIC_VECTOR) return STD_LOGIC is variable Upper, Lower : STD_ULOGIC; variable Half : INTEGER; variable BUS_int : STD_ULOGIC_VECTOR (arg'length - 1 downto 0); variable Result : STD_ULOGIC; begin if (arg'length < 1) then -- In the case of a NULL range Result := '1'; else BUS_int := to_ux01 (arg); if (BUS_int'length = 1) then Result := BUS_int (BUS_int'left); elsif (BUS_int'length = 2) then Result := BUS_int (BUS_int'right) and BUS_int (BUS_int'left); else Half := (BUS_int'length + 1) / 2 + BUS_int'right; Upper := and_reduce (BUS_int (BUS_int'left downto Half)); Lower := and_reduce (BUS_int (Half - 1 downto BUS_int'right)); Result := Upper and Lower; end if; end if; return Result; end function and_reduce; function xor_reduce (arg : STD_ULOGIC_VECTOR) return STD_ULOGIC is variable Upper, Lower : STD_ULOGIC; variable Half : INTEGER; variable BUS_int : STD_ULOGIC_VECTOR (arg'length - 1 downto 0); variable Result : STD_ULOGIC := '0'; -- In the case of a NULL range begin if (arg'length >= 1) then BUS_int := to_ux01 (arg); if (BUS_int'length = 1) then Result := BUS_int (BUS_int'left); elsif (BUS_int'length = 2) then Result := BUS_int(BUS_int'right) xor BUS_int(BUS_int'left); else Half := (BUS_int'length + 1) / 2 + BUS_int'right; Upper := xor_reduce (BUS_int (BUS_int'left downto Half)); Lower := xor_reduce (BUS_int (Half - 1 downto BUS_int'right)); Result := Upper xor Lower; end if; end if; return Result; end function xor_reduce; function nand_reduce(arg : std_ulogic_vector) return STD_ULOGIC is begin return not and_reduce (arg); end function nand_reduce; function nor_reduce(arg : std_ulogic_vector) return STD_ULOGIC is begin return not or_reduce (arg); end function nor_reduce; function xnor_reduce(arg : std_ulogic_vector) return STD_ULOGIC is begin return not xor_reduce (arg); end function xnor_reduce; -- Match table, copied form new std_logic_1164 type stdlogic_table is array(STD_ULOGIC, STD_ULOGIC) of STD_ULOGIC; -- constant match_logic_table : stdlogic_table := ( -- ----------------------------------------------------- -- -- U X 0 1 Z W L H - \| \| -- ----------------------------------------------------- -- ('U', 'U', 'U', 'U', 'U', 'U', 'U', 'U', '1'), -- \| U \| -- ('U', 'X', 'X', 'X', 'X', 'X', 'X', 'X', '1'), -- \| X \| -- ('U', 'X', '1', '0', 'X', 'X', '1', '0', '1'), -- \| 0 \| -- ('U', 'X', '0', '1', 'X', 'X', '0', '1', '1'), -- \| 1 \| -- ('U', 'X', 'X', 'X', 'X', 'X', 'X', 'X', '1'), -- \| Z \| -- ('U', 'X', 'X', 'X', 'X', 'X', 'X', 'X', '1'), -- \| W \| -- ('U', 'X', '1', '0', 'X', 'X', '1', '0', '1'), -- \| L \| -- ('U', 'X', '0', '1', 'X', 'X', '0', '1', '1'), -- \| H \| -- ('1', '1', '1', '1', '1', '1', '1', '1', '1') -- \| - \| -- ); -- purpose: Syntheis verison of the match_logic_table function match_logic_table ( l, r : std_ulogic) return std_ulogic is variable lx, rx : STD_ULOGIC; begin -- match_logic_table lx := to_x01(l); rx := to_x01(r); if lx = 'X' or rx = 'X' then return 'X'; elsif lx = rx then return '1'; else return '0'; end if; end match_logic_table; -- constant no_match_logic_table : stdlogic_table := ( -- ----------------------------------------------------- -- -- U X 0 1 Z W L H - \| \| -- ----------------------------------------------------- -- ('U', 'U', 'U', 'U', 'U', 'U', 'U', 'U', '0'), -- \| U \| -- ('U', 'X', 'X', 'X', 'X', 'X', 'X', 'X', '0'), -- \| X \| -- ('U', 'X', '0', '1', 'X', 'X', '0', '1', '0'), -- \| 0 \| -- ('U', 'X', '1', '0', 'X', 'X', '1', '0', '0'), -- \| 1 \| -- ('U', 'X', 'X', 'X', 'X', 'X', 'X', 'X', '0'), -- \| Z \| -- ('U', 'X', 'X', 'X', 'X', 'X', 'X', 'X', '0'), -- \| W \| -- ('U', 'X', '0', '1', 'X', 'X', '0', '1', '0'), -- \| L \| -- ('U', 'X', '1', '0', 'X', 'X', '1', '0', '0'), -- \| H \| -- ('0', '0', '0', '0', '0', '0', '0', '0', '0') -- \| - \| -- ); function no_match_logic_table ( l, r : std_ulogic) return std_ulogic is begin -- no_match_logic_table return not match_logic_table (l, r); end no_match_logic_table; ------------------------------------------------------------------- -- ?= functions, Similar to "std_match", but returns "std_ulogic". ------------------------------------------------------------------- function \?=\ (l, r : STD_ULOGIC) return STD_ULOGIC is begin return match_logic_table (l, r); end function \?=\; function \?/=\ (l, r : STD_ULOGIC) return STD_ULOGIC is begin return no_match_logic_table (l, r); end function \?/=\; -- "?=" operator is similar to "std_match", but returns a std_ulogic.. -- Id: M.2B function \?=\ (L, R: UNSIGNED) return STD_ULOGIC is constant L_LEFT : INTEGER := L'LENGTH-1; constant R_LEFT : INTEGER := R'LENGTH-1; alias XL : UNSIGNED(L_LEFT downto 0) is L; alias XR : UNSIGNED(R_LEFT downto 0) is R; constant SIZE : NATURAL := MAXIMUM(L'LENGTH, R'LENGTH); variable LX : UNSIGNED(SIZE-1 downto 0); variable RX : UNSIGNED(SIZE-1 downto 0); variable result, result1 : STD_ULOGIC; -- result begin -- Logically identical to an "=" operator. if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""?="": null detected, returning X" severity warning; return 'X'; else LX := RESIZE(XL, SIZE); RX := RESIZE(XR, SIZE); result := '1'; for i in LX'low to LX'high loop result1 := \?=\(LX(i), RX(i)); if result1 = 'U' then return 'U'; elsif result1 = 'X' or result = 'X' then result := 'X'; else result := result and result1; end if; end loop; return result; end if; end function \?=\; -- Id: M.3B function \?=\ (L, R: SIGNED) return std_ulogic is constant L_LEFT : INTEGER := L'LENGTH-1; constant R_LEFT : INTEGER := R'LENGTH-1; alias XL : SIGNED(L_LEFT downto 0) is L; alias XR : SIGNED(R_LEFT downto 0) is R; constant SIZE : NATURAL := MAXIMUM(L'LENGTH, R'LENGTH); variable LX : SIGNED(SIZE-1 downto 0); variable RX : SIGNED(SIZE-1 downto 0); variable result, result1 : STD_ULOGIC; -- result begin -- ?= if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""?="": null detected, returning X" severity warning; return 'X'; else LX := RESIZE(XL, SIZE); RX := RESIZE(XR, SIZE); result := '1'; for i in LX'low to LX'high loop result1 := \?=\ (LX(i), RX(i)); if result1 = 'U' then return 'U'; elsif result1 = 'X' or result = 'X' then result := 'X'; else result := result and result1; end if; end loop; return result; end if; end function \?=\; function \?/=\ (L, R : UNSIGNED) return std_ulogic is constant L_LEFT : INTEGER := L'LENGTH-1; constant R_LEFT : INTEGER := R'LENGTH-1; alias XL : UNSIGNED(L_LEFT downto 0) is L; alias XR : UNSIGNED(R_LEFT downto 0) is R; constant SIZE : NATURAL := MAXIMUM(L'LENGTH, R'LENGTH); variable LX : UNSIGNED(SIZE-1 downto 0); variable RX : UNSIGNED(SIZE-1 downto 0); variable result, result1 : STD_ULOGIC; -- result begin -- ?= if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""?/="": null detected, returning X" severity warning; return 'X'; else LX := RESIZE(XL, SIZE); RX := RESIZE(XR, SIZE); result := '0'; for i in LX'low to LX'high loop result1 := \?/=\ (LX(i), RX(i)); if result1 = 'U' then result := 'U'; elsif result1 = 'X' or result = 'X' then result := 'X'; else result := result or result1; end if; end loop; return result; end if; end function \?/=\; function \?/=\ (L, R : SIGNED) return std_ulogic is constant L_LEFT : INTEGER := L'LENGTH-1; constant R_LEFT : INTEGER := R'LENGTH-1; alias XL : SIGNED(L_LEFT downto 0) is L; alias XR : SIGNED(R_LEFT downto 0) is R; constant SIZE : NATURAL := MAXIMUM(L'LENGTH, R'LENGTH); variable LX : SIGNED(SIZE-1 downto 0); variable RX : SIGNED(SIZE-1 downto 0); variable result, result1 : STD_ULOGIC; -- result begin -- ?= if ((L'LENGTH < 1) or (R'LENGTH < 1)) then assert NO_WARNING report "NUMERIC_STD.""?/="": null detected, returning X" severity warning; return 'X'; else LX := RESIZE(XL, SIZE); RX := RESIZE(XR, SIZE); result := '0'; for i in LX'low to LX'high loop result1 := \?/=\ (LX(i), RX(i)); if result1 = 'U' then return 'U'; elsif result1 = 'X' or result = 'X' then result := 'X'; else result := result or result1; end if; end loop; return result; end if; end function \?/=\; function Is_X ( s : UNSIGNED ) return BOOLEAN is begin return Is_X (STD_LOGIC_VECTOR (s)); end function Is_X; function Is_X ( s : SIGNED ) return BOOLEAN is begin return Is_X (STD_LOGIC_VECTOR (s)); end function Is_X; function \?>\ (L, R : UNSIGNED) return STD_ULOGIC is begin if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report "NUMERIC_STD.""?>"": null detected, returning X" severity warning; return 'X'; else for i in L'range loop if L(i) = '-' then report "NUMERIC_STD.""?>"": '-' found in compare string" severity error; return 'X'; end if; end loop; for i in R'range loop if R(i) = '-' then report "NUMERIC_STD.""?>"": '-' found in compare string" severity error; return 'X'; end if; end loop; if is_x(l) or is_x(r) then return 'X'; elsif l > r then return '1'; else return '0'; end if; end if; end function \?>\; -- %%% function "?>" (L, R : UNSIGNED) return std_ulogic is -- %%% end function "?>"\; function \?>\ (L, R : SIGNED) return STD_ULOGIC is begin if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report "NUMERIC_STD.""?>"": null detected, returning X" severity warning; return 'X'; else for i in L'range loop if L(i) = '-' then report "NUMERIC_STD.""?>"": '-' found in compare string" severity error; return 'X'; end if; end loop; for i in R'range loop if R(i) = '-' then report "NUMERIC_STD.""?>"": '-' found in compare string" severity error; return 'X'; end if; end loop; if is_x(l) or is_x(r) then return 'X'; elsif l > r then return '1'; else return '0'; end if; end if; end function \?>\; function \?>=\ (L, R : UNSIGNED) return STD_ULOGIC is begin if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report "NUMERIC_STD.""?>="": null detected, returning X" severity warning; return 'X'; else for i in L'range loop if L(i) = '-' then report "NUMERIC_STD.""?>="": '-' found in compare string" severity error; return 'X'; end if; end loop; for i in R'range loop if R(i) = '-' then report "NUMERIC_STD.""?>="": '-' found in compare string" severity error; return 'X'; end if; end loop; if is_x(l) or is_x(r) then return 'X'; elsif l >= r then return '1'; else return '0'; end if; end if; end function \?>=\; -- %%% function "?>=" (L, R : UNSIGNED) return std_ulogic is -- %%% end function "?>="; function \?>=\ (L, R : SIGNED) return STD_ULOGIC is begin if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report "NUMERIC_STD.""?>="": null detected, returning X" severity warning; return 'X'; else for i in L'range loop if L(i) = '-' then report "NUMERIC_STD.""?>="": '-' found in compare string" severity error; return 'X'; end if; end loop; for i in R'range loop if R(i) = '-' then report "NUMERIC_STD.""?>="": '-' found in compare string" severity error; return 'X'; end if; end loop; if is_x(l) or is_x(r) then return 'X'; elsif l >= r then return '1'; else return '0'; end if; end if; end function \?>=\; function \?<\ (L, R : UNSIGNED) return STD_ULOGIC is begin if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report "NUMERIC_STD.""?<"": null detected, returning X" severity warning; return 'X'; else for i in L'range loop if L(i) = '-' then report "NUMERIC_STD.""?<"": '-' found in compare string" severity error; return 'X'; end if; end loop; for i in R'range loop if R(i) = '-' then report "NUMERIC_STD.""?<"": '-' found in compare string" severity error; return 'X'; end if; end loop; if is_x(l) or is_x(r) then return 'X'; elsif l < r then return '1'; else return '0'; end if; end if; end function \?<\; -- %%% function "?<" (L, R : UNSIGNED) return std_ulogic is -- %%% end function "?<"; function \?<\ (L, R : SIGNED) return STD_ULOGIC is begin if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report "NUMERIC_STD.""?<"": null detected, returning X" severity warning; return 'X'; else for i in L'range loop if L(i) = '-' then report "NUMERIC_STD.""?<"": '-' found in compare string" severity error; return 'X'; end if; end loop; for i in R'range loop if R(i) = '-' then report "NUMERIC_STD.""?<"": '-' found in compare string" severity error; return 'X'; end if; end loop; if is_x(l) or is_x(r) then return 'X'; elsif l < r then return '1'; else return '0'; end if; end if; end function \?<\; function \?<=\ (L, R : UNSIGNED) return STD_ULOGIC is begin if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report "NUMERIC_STD.""?<="": null detected, returning X" severity warning; return 'X'; else for i in L'range loop if L(i) = '-' then report "NUMERIC_STD.""?<="": '-' found in compare string" severity error; return 'X'; end if; end loop; for i in R'range loop if R(i) = '-' then report "NUMERIC_STD.""?<="": '-' found in compare string" severity error; return 'X'; end if; end loop; if is_x(l) or is_x(r) then return 'X'; elsif l <= r then return '1'; else return '0'; end if; end if; end function \?<=\; -- %%% function "?<=" (L, R : UNSIGNED) return std_ulogic is -- %%% end function "?<="; function \?<=\ (L, R : SIGNED) return STD_ULOGIC is begin if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report "NUMERIC_STD.""?<="": null detected, returning X" severity warning; return 'X'; else for i in L'range loop if L(i) = '-' then report "NUMERIC_STD.""?<="": '-' found in compare string" severity error; return 'X'; end if; end loop; for i in R'range loop if R(i) = '-' then report "NUMERIC_STD.""?<="": '-' found in compare string" severity error; return 'X'; end if; end loop; if is_x(l) or is_x(r) then return 'X'; elsif l <= r then return '1'; else return '0'; end if; end if; end function \?<=\; -- %%% END replicated functions -- Special version of "minimum" to do some boundary checking without errors function mins (l, r : INTEGER) return INTEGER is begin -- function mins if (L = INTEGER'low or R = INTEGER'low) then return 0; -- error condition, silent end if; return minimum (L, R); end function mins; -- Special version of "minimum" to do some boundary checking with errors function mine (l, r : INTEGER) return INTEGER is begin -- function mine if (L = INTEGER'low or R = INTEGER'low) then report fixed_pkg'instance_name & " Unbounded number passed, was a literal used?" severity error; return 0; end if; return minimum (L, R); end function mine; -- The following functions are used only internally. Every function -- calls "cleanvec" either directly or indirectly. -- purpose: Fixes "downto" problem and resolves meta states function cleanvec ( arg : UNRESOLVED_sfixed) -- input return UNRESOLVED_sfixed is constant left_index : INTEGER := maximum(arg'left, arg'right); constant right_index : INTEGER := mins(arg'left, arg'right); variable result : UNRESOLVED_sfixed (arg'range); begin -- function cleanvec assert not (arg'ascending and (arg'low /= INTEGER'low)) report fixed_pkg'instance_name & " Vector passed using a ""to"" range, expected is ""downto""" severity error; return arg; end function cleanvec; -- purpose: Fixes "downto" problem and resolves meta states function cleanvec ( arg : UNRESOLVED_ufixed) -- input return UNRESOLVED_ufixed is constant left_index : INTEGER := maximum(arg'left, arg'right); constant right_index : INTEGER := mins(arg'left, arg'right); variable result : UNRESOLVED_ufixed (arg'range); begin -- function cleanvec assert not (arg'ascending and (arg'low /= INTEGER'low)) report fixed_pkg'instance_name & " Vector passed using a ""to"" range, expected is ""downto""" severity error; return arg; end function cleanvec; -- Type convert a "unsigned" into a "ufixed", used internally function to_fixed ( arg : UNSIGNED; -- shifted vector constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (left_index downto right_index); begin -- function to_fixed result := UNRESOLVED_ufixed(arg); return result; end function to_fixed; -- Type convert a "signed" into an "sfixed", used internally function to_fixed ( arg : SIGNED; -- shifted vector constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (left_index downto right_index); begin -- function to_fixed result := UNRESOLVED_sfixed(arg); return result; end function to_fixed; -- Type convert a "ufixed" into an "unsigned", used internally function to_uns ( arg : UNRESOLVED_ufixed) -- fp vector return UNSIGNED is subtype t is UNSIGNED(arg'high - arg'low downto 0); variable slv : t; begin -- function to_uns slv := t(arg); return slv; end function to_uns; -- Type convert an "sfixed" into a "signed", used internally function to_s ( arg : UNRESOLVED_sfixed) -- fp vector return SIGNED is subtype t is SIGNED(arg'high - arg'low downto 0); variable slv : t; begin -- function to_s slv := t(arg); return slv; end function to_s; -- adds 1 to the LSB of the number procedure round_up (arg : in UNRESOLVED_ufixed; result : out UNRESOLVED_ufixed; overflowx : out BOOLEAN) is variable arguns, resuns : UNSIGNED (arg'high-arg'low+1 downto 0) := (others => '0'); begin -- round_up arguns (arguns'high-1 downto 0) := to_uns (arg); resuns := arguns + 1; result := to_fixed(resuns(arg'high-arg'low downto 0), arg'high, arg'low); overflowx := (resuns(resuns'high) = '1'); end procedure round_up; -- adds 1 to the LSB of the number procedure round_up (arg : in UNRESOLVED_sfixed; result : out UNRESOLVED_sfixed; overflowx : out BOOLEAN) is variable args, ress : SIGNED (arg'high-arg'low+1 downto 0); begin -- round_up args (args'high-1 downto 0) := to_s (arg); args(args'high) := arg(arg'high); -- sign extend ress := args + 1; result := to_fixed(ress (ress'high-1 downto 0), arg'high, arg'low); overflowx := ((arg(arg'high) /= ress(ress'high-1)) and (or_reduce (STD_ULOGIC_VECTOR(ress)) /= '0')); end procedure round_up; -- Rounding - Performs a "round_nearest" (IEEE 754) which rounds up -- when the remainder is > 0.5. If the remainder IS 0.5 then if the -- bottom bit is a "1" it is rounded, otherwise it remains the same. function round_fixed (arg : UNRESOLVED_ufixed; remainder : UNRESOLVED_ufixed; overflow_style : fixed_overflow_style_type := fixed_overflow_style) return UNRESOLVED_ufixed is variable rounds : BOOLEAN; variable round_overflow : BOOLEAN; variable result : UNRESOLVED_ufixed (arg'range); begin rounds := false; if (remainder'length > 1) then if (remainder (remainder'high) = '1') then rounds := (arg(arg'low) = '1') or (or_reduce (to_sulv(remainder(remainder'high-1 downto remainder'low))) = '1'); end if; else rounds := (arg(arg'low) = '1') and (remainder (remainder'high) = '1'); end if; if rounds then round_up(arg => arg, result => result, overflowx => round_overflow); else result := arg; end if; if (overflow_style = fixed_saturate) and round_overflow then result := saturate (result'high, result'low); end if; return result; end function round_fixed; -- Rounding case statement function round_fixed (arg : UNRESOLVED_sfixed; remainder : UNRESOLVED_sfixed; overflow_style : fixed_overflow_style_type := fixed_overflow_style) return UNRESOLVED_sfixed is variable rounds : BOOLEAN; variable round_overflow : BOOLEAN; variable result : UNRESOLVED_sfixed (arg'range); begin rounds := false; if (remainder'length > 1) then if (remainder (remainder'high) = '1') then rounds := (arg(arg'low) = '1') or (or_reduce (to_sulv(remainder(remainder'high-1 downto remainder'low))) = '1'); end if; else rounds := (arg(arg'low) = '1') and (remainder (remainder'high) = '1'); end if; if rounds then round_up(arg => arg, result => result, overflowx => round_overflow); else result := arg; end if; if round_overflow then if (overflow_style = fixed_saturate) then if arg(arg'high) = '0' then result := saturate (result'high, result'low); else result := not saturate (result'high, result'low); end if; -- Sign bit not fixed when wrapping end if; end if; return result; end function round_fixed; -- converts an sfixed into a ufixed. The output is the same length as the -- input, because abs("1000") = "1000" = 8. function to_ufixed ( arg : UNRESOLVED_sfixed) return UNRESOLVED_ufixed is constant left_index : INTEGER := arg'high; constant right_index : INTEGER := mine(arg'low, arg'low); variable xarg : UNRESOLVED_sfixed(left_index+1 downto right_index); variable result : UNRESOLVED_ufixed(left_index downto right_index); begin if arg'length < 1 then return NAUF; end if; xarg := abs(arg); result := UNRESOLVED_ufixed (xarg (left_index downto right_index)); return result; end function to_ufixed; ----------------------------------------------------------------------------- -- Visible functions ----------------------------------------------------------------------------- -- Conversion functions. These are needed for synthesis where typically -- the only input and output type is a std_logic_vector. function to_sulv ( arg : UNRESOLVED_ufixed) -- fixed point vector return STD_ULOGIC_VECTOR is variable result : STD_ULOGIC_VECTOR (arg'length-1 downto 0); begin if arg'length < 1 then return NSLV; end if; result := STD_ULOGIC_VECTOR (arg); return result; end function to_sulv; function to_sulv ( arg : UNRESOLVED_sfixed) -- fixed point vector return STD_ULOGIC_VECTOR is variable result : STD_ULOGIC_VECTOR (arg'length-1 downto 0); begin if arg'length < 1 then return NSLV; end if; result := STD_ULOGIC_VECTOR (arg); return result; end function to_sulv; function to_slv ( arg : UNRESOLVED_ufixed) -- fixed point vector return STD_LOGIC_VECTOR is begin return to_stdlogicvector(to_sulv(arg)); end function to_slv; function to_slv ( arg : UNRESOLVED_sfixed) -- fixed point vector return STD_LOGIC_VECTOR is begin return to_stdlogicvector(to_sulv(arg)); end function to_slv; function to_ufixed ( arg : STD_ULOGIC_VECTOR; -- shifted vector constant left_index : INTEGER; constant right_index : INTEGER) return unresolved_ufixed is variable result : UNRESOLVED_ufixed (left_index downto right_index); begin if (arg'length < 1 or right_index > left_index) then return NAUF; end if; if (arg'length /= result'length) then report fixed_pkg'instance_name & "TO_UFIXED(SLV) " & "Vector lengths do not match. Input length is " & INTEGER'image(arg'length) & " and output will be " & INTEGER'image(result'length) & " wide." severity error; return NAUF; else result := to_fixed (arg => UNSIGNED(arg), left_index => left_index, right_index => right_index); return result; end if; end function to_ufixed; function to_sfixed ( arg : STD_ULOGIC_VECTOR; -- shifted vector constant left_index : INTEGER; constant right_index : INTEGER) return unresolved_sfixed is variable result : UNRESOLVED_sfixed (left_index downto right_index); begin if (arg'length < 1 or right_index > left_index) then return NASF; end if; if (arg'length /= result'length) then report fixed_pkg'instance_name & "TO_SFIXED(SLV) " & "Vector lengths do not match. Input length is " & INTEGER'image(arg'length) & " and output will be " & INTEGER'image(result'length) & " wide." severity error; return NASF; else result := to_fixed (arg => SIGNED(arg), left_index => left_index, right_index => right_index); return result; end if; end function to_sfixed; -- Two's complement number, Grows the vector by 1 bit. -- because "abs (1000.000) = 01000.000" or abs(-16) = 16. function "abs" ( arg : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is constant left_index : INTEGER := arg'high; constant right_index : INTEGER := mine(arg'low, arg'low); variable ressns : SIGNED (arg'length downto 0); variable result : UNRESOLVED_sfixed (left_index+1 downto right_index); begin if (arg'length < 1 or result'length < 1) then return NASF; end if; ressns (arg'length-1 downto 0) := to_s (cleanvec (arg)); ressns (arg'length) := ressns (arg'length-1); -- expand sign bit result := to_fixed (abs(ressns), left_index+1, right_index); return result; end function "abs"; -- also grows the vector by 1 bit. function "-" ( arg : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is constant left_index : INTEGER := arg'high+1; constant right_index : INTEGER := mine(arg'low, arg'low); variable ressns : SIGNED (arg'length downto 0); variable result : UNRESOLVED_sfixed (left_index downto right_index); begin if (arg'length < 1 or result'length < 1) then return NASF; end if; ressns (arg'length-1 downto 0) := to_s (cleanvec(arg)); ressns (arg'length) := ressns (arg'length-1); -- expand sign bit result := to_fixed (-ressns, left_index, right_index); return result; end function "-"; -- Addition function "+" ( l, r : UNRESOLVED_ufixed) -- ufixed(a downto b) + ufixed(c downto d) = return UNRESOLVED_ufixed is -- ufixed(max(a,c)+1 downto min(b,d)) constant left_index : INTEGER := maximum(l'high, r'high)+1; constant right_index : INTEGER := mine(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable result : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (left_index-right_index downto 0); variable result_slv : UNSIGNED (left_index-right_index downto 0); begin if (l'length < 1 or r'length < 1 or result'length < 1) then return NAUF; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); result_slv := lslv + rslv; result := to_fixed(result_slv, left_index, right_index); return result; end function "+"; function "+" ( l, r : UNRESOLVED_sfixed) -- sfixed(a downto b) + sfixed(c downto d) = return UNRESOLVED_sfixed is -- sfixed(max(a,c)+1 downto min(b,d)) constant left_index : INTEGER := maximum(l'high, r'high)+1; constant right_index : INTEGER := mine(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable result : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (left_index-right_index downto 0); variable result_slv : SIGNED (left_index-right_index downto 0); begin if (l'length < 1 or r'length < 1 or result'length < 1) then return NASF; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); result_slv := lslv + rslv; result := to_fixed(result_slv, left_index, right_index); return result; end function "+"; -- Subtraction function "-" ( l, r : UNRESOLVED_ufixed) -- ufixed(a downto b) - ufixed(c downto d) = return UNRESOLVED_ufixed is -- ufixed(max(a,c)+1 downto min(b,d)) constant left_index : INTEGER := maximum(l'high, r'high)+1; constant right_index : INTEGER := mine(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable result : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (left_index-right_index downto 0); variable result_slv : UNSIGNED (left_index-right_index downto 0); begin if (l'length < 1 or r'length < 1 or result'length < 1) then return NAUF; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); result_slv := lslv - rslv; result := to_fixed(result_slv, left_index, right_index); return result; end function "-"; function "-" ( l, r : UNRESOLVED_sfixed) -- sfixed(a downto b) - sfixed(c downto d) = return UNRESOLVED_sfixed is -- sfixed(max(a,c)+1 downto min(b,d)) constant left_index : INTEGER := maximum(l'high, r'high)+1; constant right_index : INTEGER := mine(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable result : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (left_index-right_index downto 0); variable result_slv : SIGNED (left_index-right_index downto 0); begin if (l'length < 1 or r'length < 1 or result'length < 1) then return NASF; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); result_slv := lslv - rslv; result := to_fixed(result_slv, left_index, right_index); return result; end function "-"; function "" ( l, r : UNRESOLVED_ufixed) -- ufixed(a downto b) ufixed(c downto d) = return UNRESOLVED_ufixed is -- ufixed(a+c+1 downto b+d) variable lslv : UNSIGNED (l'length-1 downto 0); variable rslv : UNSIGNED (r'length-1 downto 0); variable result_slv : UNSIGNED (r'length+l'length-1 downto 0); variable result : UNRESOLVED_ufixed (l'high + r'high+1 downto mine(l'low, l'low) + mine(r'low, r'low)); begin if (l'length < 1 or r'length < 1 or result'length /= result_slv'length) then return NAUF; end if; lslv := to_uns (cleanvec(l)); rslv := to_uns (cleanvec(r)); result_slv := lslv * rslv; result := to_fixed (result_slv, result'high, result'low); return result; end function ""; function "" ( l, r : UNRESOLVED_sfixed) -- sfixed(a downto b) * sfixed(c downto d) = return UNRESOLVED_sfixed is -- sfixed(a+c+1 downto b+d) variable lslv : SIGNED (l'length-1 downto 0); variable rslv : SIGNED (r'length-1 downto 0); variable result_slv : SIGNED (r'length+l'length-1 downto 0); variable result : UNRESOLVED_sfixed (l'high + r'high+1 downto mine(l'low, l'low) + mine(r'low, r'low)); begin if (l'length < 1 or r'length < 1 or result'length /= result_slv'length) then return NASF; end if; lslv := to_s (cleanvec(l)); rslv := to_s (cleanvec(r)); result_slv := lslv * rslv; result := to_fixed (result_slv, result'high, result'low); return result; end function ""; function "/" ( l, r : UNRESOLVED_ufixed) -- ufixed(a downto b) / ufixed(c downto d) = return UNRESOLVED_ufixed is -- ufixed(a-d downto b-c-1) begin return divide (l, r); end function "/"; function "/" ( l, r : UNRESOLVED_sfixed) -- sfixed(a downto b) / sfixed(c downto d) = return UNRESOLVED_sfixed is -- sfixed(a-d+1 downto b-c) begin return divide (l, r); end function "/"; -- This version of divide gives the user more control -- ufixed(a downto b) / ufixed(c downto d) = ufixed(a-d downto b-c-1) function divide ( l, r : UNRESOLVED_ufixed; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (l'high - mine(r'low, r'low) downto mine (l'low, l'low) - r'high -1); variable dresult : UNRESOLVED_ufixed (result'high downto result'low -guard_bits); variable lresize : UNRESOLVED_ufixed (l'high downto l'high - dresult'length+1); variable lslv : UNSIGNED (lresize'length-1 downto 0); variable rslv : UNSIGNED (r'length-1 downto 0); variable result_slv : UNSIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1 or mins(r'low, r'low) /= r'low or mins(l'low, l'low) /= l'low) then return NAUF; end if; lresize := resize (arg => l, left_index => lresize'high, right_index => lresize'low, overflow_style => fixed_wrap, -- vector only grows round_style => fixed_truncate); lslv := to_uns (cleanvec (lresize)); rslv := to_uns (cleanvec (r)); if (rslv = 0) then report fixed_pkg'instance_name & "DIVIDE(ufixed) Division by zero" severity error; result := saturate (result'high, result'low); -- saturate else result_slv := lslv / rslv; dresult := to_fixed (result_slv, dresult'high, dresult'low); result := resize (arg => dresult, left_index => result'high, right_index => result'low, overflow_style => fixed_wrap, -- overflow impossible round_style => round_style); end if; return result; end function divide; -- sfixed(a downto b) / sfixed(c downto d) = sfixed(a-d+1 downto b-c) function divide ( l, r : UNRESOLVED_sfixed; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (l'high - mine(r'low, r'low) + 1 downto mine (l'low, l'low) - r'high); variable dresult : UNRESOLVED_sfixed (result'high downto result'low-guard_bits); variable lresize : UNRESOLVED_sfixed (l'high+1 downto l'high+1 -dresult'length+1); variable lslv : SIGNED (lresize'length-1 downto 0); variable rslv : SIGNED (r'length-1 downto 0); variable result_slv : SIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1 or mins(r'low, r'low) /= r'low or mins(l'low, l'low) /= l'low) then return NASF; end if; lresize := resize (arg => l, left_index => lresize'high, right_index => lresize'low, overflow_style => fixed_wrap, -- vector only grows round_style => fixed_truncate); lslv := to_s (cleanvec (lresize)); rslv := to_s (cleanvec (r)); if (rslv = 0) then report fixed_pkg'instance_name & "DIVIDE(sfixed) Division by zero" severity error; result := saturate (result'high, result'low); else result_slv := lslv / rslv; dresult := to_fixed (result_slv, dresult'high, dresult'low); result := resize (arg => dresult, left_index => result'high, right_index => result'low, overflow_style => fixed_wrap, -- overflow impossible round_style => round_style); end if; return result; end function divide; -- 1 / ufixed(a downto b) = ufixed(-b downto -a-1) function reciprocal ( arg : UNRESOLVED_ufixed; -- fixed point input constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_ufixed is constant one : UNRESOLVED_ufixed (0 downto 0) := "1"; begin return divide (l => one, r => arg, round_style => round_style, guard_bits => guard_bits); end function reciprocal; -- 1 / sfixed(a downto b) = sfixed(-b+1 downto -a) function reciprocal ( arg : UNRESOLVED_sfixed; -- fixed point input constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_sfixed is constant one : UNRESOLVED_sfixed (1 downto 0) := "01"; -- extra bit. variable resultx : UNRESOLVED_sfixed (-mine(arg'low, arg'low)+2 downto -arg'high); begin if (arg'length < 1 or resultx'length < 1) then return NASF; else resultx := divide (l => one, r => arg, round_style => round_style, guard_bits => guard_bits); return resultx (resultx'high-1 downto resultx'low); -- remove extra bit end if; end function reciprocal; -- ufixed (a downto b) rem ufixed (c downto d) -- = ufixed (min(a,c) downto min(b,d)) function "rem" ( l, r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return remainder (l, r); end function "rem"; -- remainder -- sfixed (a downto b) rem sfixed (c downto d) -- = sfixed (min(a,c) downto min(b,d)) function "rem" ( l, r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return remainder (l, r); end function "rem"; -- ufixed (a downto b) rem ufixed (c downto d) -- = ufixed (min(a,c) downto min(b,d)) function remainder ( l, r : UNRESOLVED_ufixed; -- fixed point input constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (minimum(l'high, r'high) downto mine(l'low, r'low)); variable lresize : UNRESOLVED_ufixed (maximum(l'high, r'low) downto mins(r'low, r'low)-guard_bits); variable rresize : UNRESOLVED_ufixed (r'high downto r'low-guard_bits); variable dresult : UNRESOLVED_ufixed (rresize'range); variable lslv : UNSIGNED (lresize'length-1 downto 0); variable rslv : UNSIGNED (rresize'length-1 downto 0); variable result_slv : UNSIGNED (rslv'range); begin if (l'length < 1 or r'length < 1 or mins(r'low, r'low) /= r'low or mins(l'low, l'low) /= l'low) then return NAUF; end if; lresize := resize (arg => l, left_index => lresize'high, right_index => lresize'low, overflow_style => fixed_wrap, -- vector only grows round_style => fixed_truncate); lslv := to_uns (lresize); rresize := resize (arg => r, left_index => rresize'high, right_index => rresize'low, overflow_style => fixed_wrap, -- vector only grows round_style => fixed_truncate); rslv := to_uns (rresize); if (rslv = 0) then report fixed_pkg'instance_name & "remainder(ufixed) Division by zero" severity error; result := saturate (result'high, result'low); -- saturate else if (r'low <= l'high) then result_slv := lslv rem rslv; dresult := to_fixed (result_slv, dresult'high, dresult'low); result := resize (arg => dresult, left_index => result'high, right_index => result'low, overflow_style => fixed_wrap, -- can't overflow round_style => round_style); end if; if l'low < r'low then result(mins(r'low-1, l'high) downto l'low) := cleanvec(l(mins(r'low-1, l'high) downto l'low)); end if; end if; return result; end function remainder; -- remainder -- sfixed (a downto b) rem sfixed (c downto d) -- = sfixed (min(a,c) downto min(b,d)) function remainder ( l, r : UNRESOLVED_sfixed; -- fixed point input constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_sfixed is variable l_abs : UNRESOLVED_ufixed (l'range); variable r_abs : UNRESOLVED_ufixed (r'range); variable result : UNRESOLVED_sfixed (minimum(r'high, l'high) downto mine(r'low, l'low)); variable neg_result : UNRESOLVED_sfixed (minimum(r'high, l'high)+1 downto mins(r'low, l'low)); begin if (l'length < 1 or r'length < 1 or mins(r'low, r'low) /= r'low or mins(l'low, l'low) /= l'low) then return NASF; end if; l_abs := to_ufixed (l); r_abs := to_ufixed (r); result := UNRESOLVED_sfixed (remainder ( l => l_abs, r => r_abs, round_style => round_style)); neg_result := -result; if l(l'high) = '1' then result := neg_result(result'range); end if; return result; end function remainder; -- modulo -- ufixed (a downto b) mod ufixed (c downto d) -- = ufixed (min(a,c) downto min(b, d)) function "mod" ( l, r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return modulo (l, r); end function "mod"; -- sfixed (a downto b) mod sfixed (c downto d) -- = sfixed (c downto min(b, d)) function "mod" ( l, r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return modulo(l, r); end function "mod"; -- modulo -- ufixed (a downto b) mod ufixed (c downto d) -- = ufixed (min(a,c) downto min(b, d)) function modulo ( l, r : UNRESOLVED_ufixed; -- fixed point input constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_ufixed is begin return remainder(l => l, r => r, round_style => round_style, guard_bits => guard_bits); end function modulo; -- sfixed (a downto b) mod sfixed (c downto d) -- = sfixed (c downto min(b, d)) function modulo ( l, r : UNRESOLVED_sfixed; -- fixed point input constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) return UNRESOLVED_sfixed is variable l_abs : UNRESOLVED_ufixed (l'range); variable r_abs : UNRESOLVED_ufixed (r'range); variable result : UNRESOLVED_sfixed (r'high downto mine(r'low, l'low)); variable dresult : UNRESOLVED_sfixed (minimum(r'high, l'high)+1 downto mins(r'low, l'low)); variable dresult_not_zero : BOOLEAN; begin if (l'length < 1 or r'length < 1 or mins(r'low, r'low) /= r'low or mins(l'low, l'low) /= l'low) then return NASF; end if; l_abs := to_ufixed (l); r_abs := to_ufixed (r); dresult := "0" & UNRESOLVED_sfixed(remainder (l => l_abs, r => r_abs, round_style => round_style)); if (to_s(dresult) = 0) then dresult_not_zero := false; else dresult_not_zero := true; end if; if to_x01(l(l'high)) = '1' and to_x01(r(r'high)) = '0' and dresult_not_zero then result := resize (arg => r - dresult, left_index => result'high, right_index => result'low, overflow_style => overflow_style, round_style => round_style); elsif to_x01(l(l'high)) = '1' and to_x01(r(r'high)) = '1' then result := resize (arg => -dresult, left_index => result'high, right_index => result'low, overflow_style => overflow_style, round_style => round_style); elsif to_x01(l(l'high)) = '0' and to_x01(r(r'high)) = '1' and dresult_not_zero then result := resize (arg => dresult + r, left_index => result'high, right_index => result'low, overflow_style => overflow_style, round_style => round_style); else result := resize (arg => dresult, left_index => result'high, right_index => result'low, overflow_style => overflow_style, round_style => round_style); end if; return result; end function modulo; -- Procedure for those who need an "accumulator" function procedure add_carry ( L, R : in UNRESOLVED_ufixed; c_in : in STD_ULOGIC; result : out UNRESOLVED_ufixed; c_out : out STD_ULOGIC) is constant left_index : INTEGER := maximum(l'high, r'high)+1; constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (left_index-right_index downto 0); variable result_slv : UNSIGNED (left_index-right_index downto 0); variable cx : UNSIGNED (0 downto 0); -- Carry in begin if (l'length < 1 or r'length < 1) then result := NAUF; c_out := '0'; else cx (0) := c_in; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); result_slv := lslv + rslv + cx; c_out := result_slv(left_index); result := to_fixed(result_slv (left_index-right_index-1 downto 0), left_index-1, right_index); end if; end procedure add_carry; procedure add_carry ( L, R : in UNRESOLVED_sfixed; c_in : in STD_ULOGIC; result : out UNRESOLVED_sfixed; c_out : out STD_ULOGIC) is constant left_index : INTEGER := maximum(l'high, r'high)+1; constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (left_index-right_index downto 0); variable result_slv : SIGNED (left_index-right_index downto 0); variable cx : SIGNED (1 downto 0); -- Carry in begin if (l'length < 1 or r'length < 1) then result := NASF; c_out := '0'; else cx (1) := '0'; cx (0) := c_in; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); result_slv := lslv + rslv + cx; c_out := result_slv(left_index); result := to_fixed(result_slv (left_index-right_index-1 downto 0), left_index-1, right_index); end if; end procedure add_carry; -- Scales the result by a power of 2. Width of input = width of output with -- the decimal point moved. function scalb (y : UNRESOLVED_ufixed; N : INTEGER) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (y'high+N downto y'low+N); begin if y'length < 1 then return NAUF; else result := y; return result; end if; end function scalb; function scalb (y : UNRESOLVED_ufixed; N : SIGNED) return UNRESOLVED_ufixed is begin return scalb (y => y, N => to_integer(N)); end function scalb; function scalb (y : UNRESOLVED_sfixed; N : INTEGER) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (y'high+N downto y'low+N); begin if y'length < 1 then return NASF; else result := y; return result; end if; end function scalb; function scalb (y : UNRESOLVED_sfixed; N : SIGNED) return UNRESOLVED_sfixed is begin return scalb (y => y, N => to_integer(N)); end function scalb; function Is_Negative (arg : UNRESOLVED_sfixed) return BOOLEAN is begin if to_X01(arg(arg'high)) = '1' then return true; else return false; end if; end function Is_Negative; function find_rightmost (arg : UNRESOLVED_ufixed; y : STD_ULOGIC) return INTEGER is begin for_loop : for i in arg'reverse_range loop if \?=\ (arg(i), y) = '1' then return i; end if; end loop; return arg'high+1; -- return out of bounds 'high end function find_rightmost; function find_leftmost (arg : UNRESOLVED_ufixed; y : STD_ULOGIC) return INTEGER is begin for_loop : for i in arg'range loop if \?=\ (arg(i), y) = '1' then return i; end if; end loop; return arg'low-1; -- return out of bounds 'low end function find_leftmost; function find_rightmost (arg : UNRESOLVED_sfixed; y : STD_ULOGIC) return INTEGER is begin for_loop : for i in arg'reverse_range loop if \?=\ (arg(i), y) = '1' then return i; end if; end loop; return arg'high+1; -- return out of bounds 'high end function find_rightmost; function find_leftmost (arg : UNRESOLVED_sfixed; y : STD_ULOGIC) return INTEGER is begin for_loop : for i in arg'range loop if \?=\ (arg(i), y) = '1' then return i; end if; end loop; return arg'low-1; -- return out of bounds 'low end function find_leftmost; function "sll" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed is variable argslv : UNSIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_ufixed (arg'range); begin argslv := to_uns (arg); argslv := argslv sll COUNT; result := to_fixed (argslv, result'high, result'low); return result; end function "sll"; function "srl" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed is variable argslv : UNSIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_ufixed (arg'range); begin argslv := to_uns (arg); argslv := argslv srl COUNT; result := to_fixed (argslv, result'high, result'low); return result; end function "srl"; function "rol" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed is variable argslv : UNSIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_ufixed (arg'range); begin argslv := to_uns (arg); argslv := argslv rol COUNT; result := to_fixed (argslv, result'high, result'low); return result; end function "rol"; function "ror" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed is variable argslv : UNSIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_ufixed (arg'range); begin argslv := to_uns (arg); argslv := argslv ror COUNT; result := to_fixed (argslv, result'high, result'low); return result; end function "ror"; function "sla" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed is variable argslv : UNSIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_ufixed (arg'range); begin argslv := to_uns (arg); -- Arithmetic shift on an unsigned is a logical shift argslv := argslv sll COUNT; result := to_fixed (argslv, result'high, result'low); return result; end function "sla"; function "sra" (ARG : UNRESOLVED_ufixed; COUNT : INTEGER) return UNRESOLVED_ufixed is variable argslv : UNSIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_ufixed (arg'range); begin argslv := to_uns (arg); -- Arithmetic shift on an unsigned is a logical shift argslv := argslv srl COUNT; result := to_fixed (argslv, result'high, result'low); return result; end function "sra"; function "sll" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed is variable argslv : SIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_sfixed (arg'range); begin argslv := to_s (arg); argslv := argslv sll COUNT; result := to_fixed (argslv, result'high, result'low); return result; end function "sll"; function "srl" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed is variable argslv : SIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_sfixed (arg'range); begin argslv := to_s (arg); argslv := argslv srl COUNT; result := to_fixed (argslv, result'high, result'low); return result; end function "srl"; function "rol" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed is variable argslv : SIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_sfixed (arg'range); begin argslv := to_s (arg); argslv := argslv rol COUNT; result := to_fixed (argslv, result'high, result'low); return result; end function "rol"; function "ror" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed is variable argslv : SIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_sfixed (arg'range); begin argslv := to_s (arg); argslv := argslv ror COUNT; result := to_fixed (argslv, result'high, result'low); return result; end function "ror"; function "sla" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed is variable argslv : SIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_sfixed (arg'range); begin argslv := to_s (arg); if COUNT > 0 then -- Arithmetic shift left on a 2's complement number is a logic shift argslv := argslv sll COUNT; else argslv := argslv sra -COUNT; end if; result := to_fixed (argslv, result'high, result'low); return result; end function "sla"; function "sra" (ARG : UNRESOLVED_sfixed; COUNT : INTEGER) return UNRESOLVED_sfixed is variable argslv : SIGNED (arg'length-1 downto 0); variable result : UNRESOLVED_sfixed (arg'range); begin argslv := to_s (arg); if COUNT > 0 then argslv := argslv sra COUNT; else -- Arithmetic shift left on a 2's complement number is a logic shift argslv := argslv sll -COUNT; end if; result := to_fixed (argslv, result'high, result'low); return result; end function "sra"; -- Because some people want the older functions. function SHIFT_LEFT (ARG : UNRESOLVED_ufixed; COUNT : NATURAL) return UNRESOLVED_ufixed is begin if (ARG'length < 1) then return NAUF; end if; return ARG sla COUNT; end function SHIFT_LEFT; function SHIFT_RIGHT (ARG : UNRESOLVED_ufixed; COUNT : NATURAL) return UNRESOLVED_ufixed is begin if (ARG'length < 1) then return NAUF; end if; return ARG sra COUNT; end function SHIFT_RIGHT; function SHIFT_LEFT (ARG : UNRESOLVED_sfixed; COUNT : NATURAL) return UNRESOLVED_sfixed is begin if (ARG'length < 1) then return NASF; end if; return ARG sla COUNT; end function SHIFT_LEFT; function SHIFT_RIGHT (ARG : UNRESOLVED_sfixed; COUNT : NATURAL) return UNRESOLVED_sfixed is begin if (ARG'length < 1) then return NASF; end if; return ARG sra COUNT; end function SHIFT_RIGHT; ---------------------------------------------------------------------------- -- logical functions ---------------------------------------------------------------------------- function "not" (L : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin RESULT := not to_sulv(L); return to_ufixed(RESULT, L'high, L'low); end function "not"; function "and" (L, R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) and to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """and"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_ufixed(RESULT, L'high, L'low); end function "and"; function "or" (L, R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) or to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """or"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_ufixed(RESULT, L'high, L'low); end function "or"; function "nand" (L, R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) nand to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """nand"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_ufixed(RESULT, L'high, L'low); end function "nand"; function "nor" (L, R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) nor to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """nor"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_ufixed(RESULT, L'high, L'low); end function "nor"; function "xor" (L, R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) xor to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """xor"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_ufixed(RESULT, L'high, L'low); end function "xor"; function "xnor" (L, R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) xnor to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """xnor"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_ufixed(RESULT, L'high, L'low); end function "xnor"; function "not" (L : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin RESULT := not to_sulv(L); return to_sfixed(RESULT, L'high, L'low); end function "not"; function "and" (L, R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) and to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """and"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_sfixed(RESULT, L'high, L'low); end function "and"; function "or" (L, R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) or to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """or"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_sfixed(RESULT, L'high, L'low); end function "or"; function "nand" (L, R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) nand to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """nand"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_sfixed(RESULT, L'high, L'low); end function "nand"; function "nor" (L, R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) nor to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """nor"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_sfixed(RESULT, L'high, L'low); end function "nor"; function "xor" (L, R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) xor to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """xor"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_sfixed(RESULT, L'high, L'low); end function "xor"; function "xnor" (L, R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable RESULT : STD_ULOGIC_VECTOR(L'length-1 downto 0); -- force downto begin if (L'high = R'high and L'low = R'low) then RESULT := to_sulv(L) xnor to_sulv(R); else assert NO_WARNING report fixed_pkg'instance_name & """xnor"": Range error L'RANGE /= R'RANGE" severity warning; RESULT := (others => 'X'); end if; return to_sfixed(RESULT, L'high, L'low); end function "xnor"; -- Vector and std_ulogic functions, same as functions in numeric_std function "and" (L : STD_ULOGIC; R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (R'range); begin for i in result'range loop result(i) := L and R(i); end loop; return result; end function "and"; function "and" (L : UNRESOLVED_ufixed; R : STD_ULOGIC) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (L'range); begin for i in result'range loop result(i) := L(i) and R; end loop; return result; end function "and"; function "or" (L : STD_ULOGIC; R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (R'range); begin for i in result'range loop result(i) := L or R(i); end loop; return result; end function "or"; function "or" (L : UNRESOLVED_ufixed; R : STD_ULOGIC) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (L'range); begin for i in result'range loop result(i) := L(i) or R; end loop; return result; end function "or"; function "nand" (L : STD_ULOGIC; R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (R'range); begin for i in result'range loop result(i) := L nand R(i); end loop; return result; end function "nand"; function "nand" (L : UNRESOLVED_ufixed; R : STD_ULOGIC) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (L'range); begin for i in result'range loop result(i) := L(i) nand R; end loop; return result; end function "nand"; function "nor" (L : STD_ULOGIC; R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (R'range); begin for i in result'range loop result(i) := L nor R(i); end loop; return result; end function "nor"; function "nor" (L : UNRESOLVED_ufixed; R : STD_ULOGIC) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (L'range); begin for i in result'range loop result(i) := L(i) nor R; end loop; return result; end function "nor"; function "xor" (L : STD_ULOGIC; R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (R'range); begin for i in result'range loop result(i) := L xor R(i); end loop; return result; end function "xor"; function "xor" (L : UNRESOLVED_ufixed; R : STD_ULOGIC) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (L'range); begin for i in result'range loop result(i) := L(i) xor R; end loop; return result; end function "xor"; function "xnor" (L : STD_ULOGIC; R : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (R'range); begin for i in result'range loop result(i) := L xnor R(i); end loop; return result; end function "xnor"; function "xnor" (L : UNRESOLVED_ufixed; R : STD_ULOGIC) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (L'range); begin for i in result'range loop result(i) := L(i) xnor R; end loop; return result; end function "xnor"; function "and" (L : STD_ULOGIC; R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (R'range); begin for i in result'range loop result(i) := L and R(i); end loop; return result; end function "and"; function "and" (L : UNRESOLVED_sfixed; R : STD_ULOGIC) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (L'range); begin for i in result'range loop result(i) := L(i) and R; end loop; return result; end function "and"; function "or" (L : STD_ULOGIC; R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (R'range); begin for i in result'range loop result(i) := L or R(i); end loop; return result; end function "or"; function "or" (L : UNRESOLVED_sfixed; R : STD_ULOGIC) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (L'range); begin for i in result'range loop result(i) := L(i) or R; end loop; return result; end function "or"; function "nand" (L : STD_ULOGIC; R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (R'range); begin for i in result'range loop result(i) := L nand R(i); end loop; return result; end function "nand"; function "nand" (L : UNRESOLVED_sfixed; R : STD_ULOGIC) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (L'range); begin for i in result'range loop result(i) := L(i) nand R; end loop; return result; end function "nand"; function "nor" (L : STD_ULOGIC; R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (R'range); begin for i in result'range loop result(i) := L nor R(i); end loop; return result; end function "nor"; function "nor" (L : UNRESOLVED_sfixed; R : STD_ULOGIC) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (L'range); begin for i in result'range loop result(i) := L(i) nor R; end loop; return result; end function "nor"; function "xor" (L : STD_ULOGIC; R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (R'range); begin for i in result'range loop result(i) := L xor R(i); end loop; return result; end function "xor"; function "xor" (L : UNRESOLVED_sfixed; R : STD_ULOGIC) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (L'range); begin for i in result'range loop result(i) := L(i) xor R; end loop; return result; end function "xor"; function "xnor" (L : STD_ULOGIC; R : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (R'range); begin for i in result'range loop result(i) := L xnor R(i); end loop; return result; end function "xnor"; function "xnor" (L : UNRESOLVED_sfixed; R : STD_ULOGIC) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (L'range); begin for i in result'range loop result(i) := L(i) xnor R; end loop; return result; end function "xnor"; -- Reduction operator_reduces function and_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC is begin return and_reduce (to_sulv(l)); end function and_reduce; function nand_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC is begin return nand_reduce (to_sulv(l)); end function nand_reduce; function or_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC is begin return or_reduce (to_sulv(l)); end function or_reduce; function nor_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC is begin return nor_reduce (to_sulv(l)); end function nor_reduce; function xor_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC is begin return xor_reduce (to_sulv(l)); end function xor_reduce; function xnor_reduce (l : UNRESOLVED_ufixed) return STD_ULOGIC is begin return xnor_reduce (to_sulv(l)); end function xnor_reduce; function and_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC is begin return and_reduce (to_sulv(l)); end function and_reduce; function nand_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC is begin return nand_reduce (to_sulv(l)); end function nand_reduce; function or_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC is begin return or_reduce (to_sulv(l)); end function or_reduce; function nor_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC is begin return nor_reduce (to_sulv(l)); end function nor_reduce; function xor_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC is begin return xor_reduce (to_sulv(l)); end function xor_reduce; function xnor_reduce (l : UNRESOLVED_sfixed) return STD_ULOGIC is begin return xnor_reduce (to_sulv(l)); end function xnor_reduce; -- End reduction operator_reduces function \?=\ (L, R : UNRESOLVED_ufixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin -- ?= if ((L'length < 1) or (R'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?="": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return \?=\ (lslv, rslv); end if; end function \?=\; function \?/=\ (L, R : UNRESOLVED_ufixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin -- ?/= if ((L'length < 1) or (R'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?/="": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return \?/=\ (lslv, rslv); end if; end function \?/=\; function \?>\ (L, R : UNRESOLVED_ufixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin -- ?> if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?>"": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return \?>\ (lslv, rslv); end if; end function \?>\; function \?>=\ (L, R : UNRESOLVED_ufixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin -- ?>= if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?>="": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return \?>=\ (lslv, rslv); end if; end function \?>=\; function \?<\ (L, R : UNRESOLVED_ufixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin -- ?< if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?<"": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return \?<\ (lslv, rslv); end if; end function \?<\; function \?<=\ (L, R : UNRESOLVED_ufixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin -- ?<= if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?<="": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return \?<=\ (lslv, rslv); end if; end function \?<=\; function \?=\ (L, R : UNRESOLVED_sfixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin -- ?= if ((L'length < 1) or (R'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?="": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return \?=\ (lslv, rslv); end if; end function \?=\; function \?/=\ (L, R : UNRESOLVED_sfixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin -- ?/= if ((L'length < 1) or (R'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?/="": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return \?/=\ (lslv, rslv); end if; end function \?/=\; function \?>\ (L, R : UNRESOLVED_sfixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin -- ?> if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?>"": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return \?>\ (lslv, rslv); end if; end function \?>\; function \?>=\ (L, R : UNRESOLVED_sfixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin -- ?>= if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?>="": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return \?>=\ (lslv, rslv); end if; end function \?>=\; function \?<\ (L, R : UNRESOLVED_sfixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin -- ?< if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?<"": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return \?<\ (lslv, rslv); end if; end function \?<\; function \?<=\ (L, R : UNRESOLVED_sfixed) return STD_ULOGIC is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin -- ?<= if ((l'length < 1) or (r'length < 1)) then assert NO_WARNING report fixed_pkg'instance_name & """?<="": null detected, returning X" severity warning; return 'X'; else lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return \?<=\ (lslv, rslv); end if; end function \?<=\; -- Match function, similar to "std_match" from numeric_std function std_match (L, R : UNRESOLVED_ufixed) return BOOLEAN is begin if (L'high = R'high and L'low = R'low) then return std_match(to_sulv(L), to_sulv(R)); else assert NO_WARNING report fixed_pkg'instance_name & "STD_MATCH: L'RANGE /= R'RANGE, returning FALSE" severity warning; return false; end if; end function std_match; function std_match (L, R : UNRESOLVED_sfixed) return BOOLEAN is begin if (L'high = R'high and L'low = R'low) then return std_match(to_sulv(L), to_sulv(R)); else assert NO_WARNING report fixed_pkg'instance_name & "STD_MATCH: L'RANGE /= R'RANGE, returning FALSE" severity warning; return false; end if; end function std_match; -- compare functions function "=" ( l, r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """="": null argument detected, returning FALSE" severity warning; return false; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """="": metavalue detected, returning FALSE" severity warning; return false; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return lslv = rslv; end function "="; function "=" ( l, r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """="": null argument detected, returning FALSE" severity warning; return false; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """="": metavalue detected, returning FALSE" severity warning; return false; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return lslv = rslv; end function "="; function "/=" ( l, r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """/="": null argument detected, returning TRUE" severity warning; return true; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """/="": metavalue detected, returning TRUE" severity warning; return true; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return lslv /= rslv; end function "/="; function "/=" ( l, r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """/="": null argument detected, returning TRUE" severity warning; return true; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """/="": metavalue detected, returning TRUE" severity warning; return true; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return lslv /= rslv; end function "/="; function ">" ( l, r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """>"": null argument detected, returning FALSE" severity warning; return false; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """>"": metavalue detected, returning FALSE" severity warning; return false; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return lslv > rslv; end function ">"; function ">" ( l, r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """>"": null argument detected, returning FALSE" severity warning; return false; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """>"": metavalue detected, returning FALSE" severity warning; return false; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return lslv > rslv; end function ">"; function "<" ( l, r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """<"": null argument detected, returning FALSE" severity warning; return false; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """<"": metavalue detected, returning FALSE" severity warning; return false; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return lslv < rslv; end function "<"; function "<" ( l, r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """<"": null argument detected, returning FALSE" severity warning; return false; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """<"": metavalue detected, returning FALSE" severity warning; return false; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return lslv < rslv; end function "<"; function ">=" ( l, r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """>="": null argument detected, returning FALSE" severity warning; return false; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """>="": metavalue detected, returning FALSE" severity warning; return false; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return lslv >= rslv; end function ">="; function ">=" ( l, r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """>="": null argument detected, returning FALSE" severity warning; return false; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """>="": metavalue detected, returning FALSE" severity warning; return false; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return lslv >= rslv; end function ">="; function "<=" ( l, r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); variable lslv, rslv : UNSIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """<="": null argument detected, returning FALSE" severity warning; return false; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """<="": metavalue detected, returning FALSE" severity warning; return false; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_uns (lresize); rslv := to_uns (rresize); return lslv <= rslv; end function "<="; function "<=" ( l, r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); variable lslv, rslv : SIGNED (lresize'length-1 downto 0); begin if (l'length < 1 or r'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & """<="": null argument detected, returning FALSE" severity warning; return false; elsif (Is_X(l) or Is_X(r)) then assert NO_WARNING report fixed_pkg'instance_name & """<="": metavalue detected, returning FALSE" severity warning; return false; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); lslv := to_s (lresize); rslv := to_s (rresize); return lslv <= rslv; end function "<="; -- overloads of the default maximum and minimum functions function maximum (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); begin if (l'length < 1 or r'length < 1) then return NAUF; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); if lresize > rresize then return lresize; else return rresize; end if; end function maximum; function maximum (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); begin if (l'length < 1 or r'length < 1) then return NASF; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); if lresize > rresize then return lresize; else return rresize; end if; end function maximum; function minimum (l, r : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_ufixed (left_index downto right_index); begin if (l'length < 1 or r'length < 1) then return NAUF; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); if lresize > rresize then return rresize; else return lresize; end if; end function minimum; function minimum (l, r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is constant left_index : INTEGER := maximum(l'high, r'high); constant right_index : INTEGER := mins(l'low, r'low); variable lresize, rresize : UNRESOLVED_sfixed (left_index downto right_index); begin if (l'length < 1 or r'length < 1) then return NASF; end if; lresize := resize (l, left_index, right_index); rresize := resize (r, left_index, right_index); if lresize > rresize then return rresize; else return lresize; end if; end function minimum; function to_ufixed ( arg : NATURAL; -- integer constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER := 0; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed is constant fw : INTEGER := mins (right_index, right_index); -- catch literals variable result : UNRESOLVED_ufixed (left_index downto fw); variable sresult : UNRESOLVED_ufixed (left_index downto 0) := (others => '0'); -- integer portion variable argx : NATURAL; -- internal version of arg begin if (result'length < 1) then return NAUF; end if; if arg /= 0 then argx := arg; for I in 0 to sresult'left loop if (argx mod 2) = 0 then sresult(I) := '0'; else sresult(I) := '1'; end if; argx := argx/2; end loop; if argx /= 0 then assert NO_WARNING report fixed_pkg'instance_name & "TO_UFIXED(NATURAL): vector truncated" severity warning; if overflow_style = fixed_saturate then return saturate (left_index, right_index); end if; end if; result := resize (arg => sresult, left_index => left_index, right_index => right_index, round_style => round_style, overflow_style => overflow_style); else result := (others => '0'); end if; return result; end function to_ufixed; function to_sfixed ( arg : INTEGER; -- integer constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER := 0; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed is constant fw : INTEGER := mins (right_index, right_index); -- catch literals variable result : UNRESOLVED_sfixed (left_index downto fw); variable sresult : UNRESOLVED_sfixed (left_index downto 0) := (others => '0'); -- integer portion variable argx : INTEGER; -- internal version of arg variable sign : STD_ULOGIC; -- sign of input begin if (result'length < 1) then -- null range return NASF; end if; if arg /= 0 then if (arg < 0) then sign := '1'; argx := -(arg + 1); else sign := '0'; argx := arg; end if; for I in 0 to sresult'left loop if (argx mod 2) = 0 then sresult(I) := sign; else sresult(I) := not sign; end if; argx := argx/2; end loop; if argx /= 0 or left_index < 0 or sign /= sresult(sresult'left) then assert NO_WARNING report fixed_pkg'instance_name & "TO_SFIXED(INTEGER): vector truncated" severity warning; if overflow_style = fixed_saturate then -- saturate if arg < 0 then result := not saturate (result'high, result'low); -- underflow else result := saturate (result'high, result'low); -- overflow end if; return result; end if; end if; result := resize (arg => sresult, left_index => left_index, right_index => right_index, round_style => round_style, overflow_style => overflow_style); else result := (others => '0'); end if; return result; end function to_sfixed; function to_ufixed ( arg : REAL; -- real constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) -- # of guard bits return UNRESOLVED_ufixed is constant fw : INTEGER := mins (right_index, right_index); -- catch literals variable result : UNRESOLVED_ufixed (left_index downto fw) := (others => '0'); variable Xresult : UNRESOLVED_ufixed (left_index downto fw-guard_bits) := (others => '0'); variable presult : REAL; -- variable overflow_needed : BOOLEAN; begin -- If negative or null range, return. if (left_index < fw) then return NAUF; end if; if (arg < 0.0) then report fixed_pkg'instance_name & "TO_UFIXED: Negative argument passed " & REAL'image(arg) severity error; return result; end if; presult := arg; if presult >= (2.0(left_index+1)) then assert NO_WARNING report fixed_pkg'instance_name & "TO_UFIXED(REAL): vector truncated" severity warning; if overflow_style = fixed_wrap then presult := presult mod (2.0(left_index+1)); -- wrap else return saturate (result'high, result'low); end if; end if; for i in Xresult'range loop if presult >= 2.0i then Xresult(i) := '1'; presult := presult - 2.0i; else Xresult(i) := '0'; end if; end loop; if guard_bits > 0 and round_style = fixed_round then result := round_fixed (arg => Xresult (left_index downto right_index), remainder => Xresult (right_index-1 downto right_index-guard_bits), overflow_style => overflow_style); else result := Xresult (result'range); end if; return result; end function to_ufixed; function to_sfixed ( arg : REAL; -- real constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) -- # of guard bits return UNRESOLVED_sfixed is constant fw : INTEGER := mins (right_index, right_index); -- catch literals variable result : UNRESOLVED_sfixed (left_index downto fw) := (others => '0'); variable Xresult : UNRESOLVED_sfixed (left_index+1 downto fw-guard_bits) := (others => '0'); variable presult : REAL; begin if (left_index < fw) then -- null range return NASF; end if; if (arg >= (2.0left_index) or arg < -(2.0left_index)) then assert NO_WARNING report fixed_pkg'instance_name & "TO_SFIXED(REAL): vector truncated" severity warning; if overflow_style = fixed_saturate then if arg < 0.0 then -- saturate result := not saturate (result'high, result'low); -- underflow else result := saturate (result'high, result'low); -- overflow end if; return result; else presult := abs(arg) mod (2.0(left_index+1)); -- wrap end if; else presult := abs(arg); end if; for i in Xresult'range loop if presult >= 2.0i then Xresult(i) := '1'; presult := presult - 2.0i; else Xresult(i) := '0'; end if; end loop; if arg < 0.0 then Xresult := to_fixed(-to_s(Xresult), Xresult'high, Xresult'low); end if; if guard_bits > 0 and round_style = fixed_round then result := round_fixed (arg => Xresult (left_index downto right_index), remainder => Xresult (right_index-1 downto right_index-guard_bits), overflow_style => overflow_style); else result := Xresult (result'range); end if; return result; end function to_sfixed; function to_ufixed ( arg : UNSIGNED; -- unsigned constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER := 0; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed is constant ARG_LEFT : INTEGER := ARG'length-1; alias XARG : UNSIGNED(ARG_LEFT downto 0) is ARG; variable result : UNRESOLVED_ufixed (left_index downto right_index); begin if arg'length < 1 or (left_index < right_index) then return NAUF; end if; result := resize (arg => UNRESOLVED_ufixed (XARG), left_index => left_index, right_index => right_index, round_style => round_style, overflow_style => overflow_style); return result; end function to_ufixed; -- converted version function to_ufixed ( arg : UNSIGNED) -- unsigned return UNRESOLVED_ufixed is constant ARG_LEFT : INTEGER := ARG'length-1; alias XARG : UNSIGNED(ARG_LEFT downto 0) is ARG; begin if arg'length < 1 then return NAUF; end if; return UNRESOLVED_ufixed(xarg); end function to_ufixed; function to_sfixed ( arg : SIGNED; -- signed constant left_index : INTEGER; -- left index (high index) constant right_index : INTEGER := 0; -- right index constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed is constant ARG_LEFT : INTEGER := ARG'length-1; alias XARG : SIGNED(ARG_LEFT downto 0) is ARG; variable result : UNRESOLVED_sfixed (left_index downto right_index); begin if arg'length < 1 or (left_index < right_index) then return NASF; end if; result := resize (arg => UNRESOLVED_sfixed (XARG), left_index => left_index, right_index => right_index, round_style => round_style, overflow_style => overflow_style); return result; end function to_sfixed; -- converted version function to_sfixed ( arg : SIGNED) -- signed return UNRESOLVED_sfixed is constant ARG_LEFT : INTEGER := ARG'length-1; alias XARG : SIGNED(ARG_LEFT downto 0) is ARG; begin if arg'length < 1 then return NASF; end if; return UNRESOLVED_sfixed(xarg); end function to_sfixed; function to_sfixed (arg : UNRESOLVED_ufixed) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (arg'high+1 downto arg'low); begin if arg'length < 1 then return NASF; end if; result (arg'high downto arg'low) := UNRESOLVED_sfixed(cleanvec(arg)); result (arg'high+1) := '0'; return result; end function to_sfixed; -- Because of the fairly complicated sizing rules in the fixed point -- packages these functions are provided to compute the result ranges -- Example: -- signal uf1 : ufixed (3 downto -3); -- signal uf2 : ufixed (4 downto -2); -- signal uf1multuf2 : ufixed (ufixed_high (3, -3, '', 4, -2) downto -- ufixed_low (3, -3, '', 4, -2)); -- uf1multuf2 <= uf1 uf2; -- Valid characters: '+', '-', '', '/', 'r' or 'R' (rem), 'm' or 'M' (mod), -- '1' (reciprocal), 'A', 'a' (abs), 'N', 'n' (-sfixed) function ufixed_high (left_index, right_index : INTEGER; operation : CHARACTER := 'X'; left_index2, right_index2 : INTEGER := 0) return INTEGER is begin case operation is when '+'\| '-' => return maximum (left_index, left_index2) + 1; when '' => return left_index + left_index2 + 1; when '/' => return left_index - right_index2; when '1' => return -right_index; -- reciprocal when 'R'\|'r' => return mins (left_index, left_index2); -- "rem" when 'M'\|'m' => return mins (left_index, left_index2); -- "mod" when others => return left_index; -- For abs and default end case; end function ufixed_high; function ufixed_low (left_index, right_index : INTEGER; operation : CHARACTER := 'X'; left_index2, right_index2 : INTEGER := 0) return INTEGER is begin case operation is when '+'\| '-' => return mins (right_index, right_index2); when '' => return right_index + right_index2; when '/' => return right_index - left_index2 - 1; when '1' => return -left_index - 1; -- reciprocal when 'R'\|'r' => return mins (right_index, right_index2); -- "rem" when 'M'\|'m' => return mins (right_index, right_index2); -- "mod" when others => return right_index; -- for abs and default end case; end function ufixed_low; function sfixed_high (left_index, right_index : INTEGER; operation : CHARACTER := 'X'; left_index2, right_index2 : INTEGER := 0) return INTEGER is begin case operation is when '+'\| '-' => return maximum (left_index, left_index2) + 1; when '' => return left_index + left_index2 + 1; when '/' => return left_index - right_index2 + 1; when '1' => return -right_index + 1; -- reciprocal when 'R'\|'r' => return mins (left_index, left_index2); -- "rem" when 'M'\|'m' => return left_index2; -- "mod" when 'A'\|'a' => return left_index + 1; -- "abs" when 'N'\|'n' => return left_index + 1; -- -sfixed when others => return left_index; end case; end function sfixed_high; function sfixed_low (left_index, right_index : INTEGER; operation : CHARACTER := 'X'; left_index2, right_index2 : INTEGER := 0) return INTEGER is begin case operation is when '+'\| '-' => return mins (right_index, right_index2); when '' => return right_index + right_index2; when '/' => return right_index - left_index2; when '1' => return -left_index; -- reciprocal when 'R'\|'r' => return mins (right_index, right_index2); -- "rem" when 'M'\|'m' => return mins (right_index, right_index2); -- "mod" when others => return right_index; -- default for abs, neg and default end case; end function sfixed_low; -- Same as above, but using the "size_res" input only for their ranges: -- signal uf1multuf2 : ufixed (ufixed_high (uf1, '', uf2) downto -- ufixed_low (uf1, '', uf2)); -- uf1multuf2 <= uf1 uf2; function ufixed_high (size_res : UNRESOLVED_ufixed; operation : CHARACTER := 'X'; size_res2 : UNRESOLVED_ufixed) return INTEGER is begin return ufixed_high (left_index => size_res'high, right_index => size_res'low, operation => operation, left_index2 => size_res2'high, right_index2 => size_res2'low); end function ufixed_high; function ufixed_low (size_res : UNRESOLVED_ufixed; operation : CHARACTER := 'X'; size_res2 : UNRESOLVED_ufixed) return INTEGER is begin return ufixed_low (left_index => size_res'high, right_index => size_res'low, operation => operation, left_index2 => size_res2'high, right_index2 => size_res2'low); end function ufixed_low; function sfixed_high (size_res : UNRESOLVED_sfixed; operation : CHARACTER := 'X'; size_res2 : UNRESOLVED_sfixed) return INTEGER is begin return sfixed_high (left_index => size_res'high, right_index => size_res'low, operation => operation, left_index2 => size_res2'high, right_index2 => size_res2'low); end function sfixed_high; function sfixed_low (size_res : UNRESOLVED_sfixed; operation : CHARACTER := 'X'; size_res2 : UNRESOLVED_sfixed) return INTEGER is begin return sfixed_low (left_index => size_res'high, right_index => size_res'low, operation => operation, left_index2 => size_res2'high, right_index2 => size_res2'low); end function sfixed_low; -- purpose: returns a saturated number function saturate ( constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed is constant sat : UNRESOLVED_ufixed (left_index downto right_index) := (others => '1'); begin return sat; end function saturate; -- purpose: returns a saturated number function saturate ( constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed is variable sat : UNRESOLVED_sfixed (left_index downto right_index) := (others => '1'); begin -- saturate positive, to saturate negative, just do "not saturate()" sat (left_index) := '0'; return sat; end function saturate; function saturate ( size_res : UNRESOLVED_ufixed) -- only the size of this is used return UNRESOLVED_ufixed is begin return saturate (size_res'high, size_res'low); end function saturate; function saturate ( size_res : UNRESOLVED_sfixed) -- only the size of this is used return UNRESOLVED_sfixed is begin return saturate (size_res'high, size_res'low); end function saturate; -- As a concession to those who use a graphical DSP environment, -- these functions take parameters in those tools format and create -- fixed point numbers. These functions are designed to convert from -- a std_logic_vector to the VHDL fixed point format using the conventions -- of these packages. In a pure VHDL environment you should use the -- "to_ufixed" and "to_sfixed" routines. -- Unsigned fixed point function to_UFix ( arg : STD_ULOGIC_VECTOR; width : NATURAL; -- width of vector fraction : NATURAL) -- width of fraction return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (width-fraction-1 downto -fraction); begin if (arg'length /= result'length) then report fixed_pkg'instance_name & "TO_UFIX (STD_ULOGIC_VECTOR) " & "Vector lengths do not match. Input length is " & INTEGER'image(arg'length) & " and output will be " & INTEGER'image(result'length) & " wide." severity error; return NAUF; else result := to_ufixed (arg, result'high, result'low); return result; end if; end function to_UFix; -- signed fixed point function to_SFix ( arg : STD_ULOGIC_VECTOR; width : NATURAL; -- width of vector fraction : NATURAL) -- width of fraction return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (width-fraction-1 downto -fraction); begin if (arg'length /= result'length) then report fixed_pkg'instance_name & "TO_SFIX (STD_ULOGIC_VECTOR) " & "Vector lengths do not match. Input length is " & INTEGER'image(arg'length) & " and output will be " & INTEGER'image(result'length) & " wide." severity error; return NASF; else result := to_sfixed (arg, result'high, result'low); return result; end if; end function to_SFix; -- finding the bounds of a number. These functions can be used like this: -- signal xxx : ufixed (7 downto -3); -- -- Which is the same as "ufixed (UFix_high (11,3) downto UFix_low(11,3))" -- signal yyy : ufixed (UFix_high (11, 3, "+", 11, 3) -- downto UFix_low(11, 3, "+", 11, 3)); -- Where "11" is the width of xxx (xxx'length), -- and 3 is the lower bound (abs (xxx'low)) -- In a pure VHDL environment use "ufixed_high" and "ufixed_low" function ufix_high ( width, fraction : NATURAL; operation : CHARACTER := 'X'; width2, fraction2 : NATURAL := 0) return INTEGER is begin return ufixed_high (left_index => width - 1 - fraction, right_index => -fraction, operation => operation, left_index2 => width2 - 1 - fraction2, right_index2 => -fraction2); end function ufix_high; function ufix_low ( width, fraction : NATURAL; operation : CHARACTER := 'X'; width2, fraction2 : NATURAL := 0) return INTEGER is begin return ufixed_low (left_index => width - 1 - fraction, right_index => -fraction, operation => operation, left_index2 => width2 - 1 - fraction2, right_index2 => -fraction2); end function ufix_low; function sfix_high ( width, fraction : NATURAL; operation : CHARACTER := 'X'; width2, fraction2 : NATURAL := 0) return INTEGER is begin return sfixed_high (left_index => width - fraction, right_index => -fraction, operation => operation, left_index2 => width2 - fraction2, right_index2 => -fraction2); end function sfix_high; function sfix_low ( width, fraction : NATURAL; operation : CHARACTER := 'X'; width2, fraction2 : NATURAL := 0) return INTEGER is begin return sfixed_low (left_index => width - fraction, right_index => -fraction, operation => operation, left_index2 => width2 - fraction2, right_index2 => -fraction2); end function sfix_low; function to_unsigned ( arg : UNRESOLVED_ufixed; -- ufixed point input constant size : NATURAL; -- length of output constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNSIGNED is begin return to_uns(resize (arg => arg, left_index => size-1, right_index => 0, round_style => round_style, overflow_style => overflow_style)); end function to_unsigned; function to_unsigned ( arg : UNRESOLVED_ufixed; -- ufixed point input size_res : UNSIGNED; -- length of output constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNSIGNED is begin return to_unsigned (arg => arg, size => size_res'length, round_style => round_style, overflow_style => overflow_style); end function to_unsigned; function to_signed ( arg : UNRESOLVED_sfixed; -- sfixed point input constant size : NATURAL; -- length of output constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return SIGNED is begin return to_s(resize (arg => arg, left_index => size-1, right_index => 0, round_style => round_style, overflow_style => overflow_style)); end function to_signed; function to_signed ( arg : UNRESOLVED_sfixed; -- sfixed point input size_res : SIGNED; -- used for length of output constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return SIGNED is begin return to_signed (arg => arg, size => size_res'length, round_style => round_style, overflow_style => overflow_style); end function to_signed; function to_real ( arg : UNRESOLVED_ufixed) -- ufixed point input return REAL is constant left_index : INTEGER := arg'high; constant right_index : INTEGER := arg'low; variable result : REAL; -- result variable arg_int : UNRESOLVED_ufixed (left_index downto right_index); begin if (arg'length < 1) then return 0.0; end if; arg_int := to_x01(cleanvec(arg)); if (Is_X(arg_int)) then assert NO_WARNING report fixed_pkg'instance_name & "TO_REAL (ufixed): metavalue detected, returning 0.0" severity warning; return 0.0; end if; result := 0.0; for i in arg_int'range loop if (arg_int(i) = '1') then result := result + (2.0*i); end if; end loop; return result; end function to_real; function to_real ( arg : UNRESOLVED_sfixed) -- ufixed point input return REAL is constant left_index : INTEGER := arg'high; constant right_index : INTEGER := arg'low; variable result : REAL; -- result variable arg_int : UNRESOLVED_sfixed (left_index downto right_index); -- unsigned version of argument variable arg_uns : UNRESOLVED_ufixed (left_index downto right_index); -- absolute of argument begin if (arg'length < 1) then return 0.0; end if; arg_int := to_x01(cleanvec(arg)); if (Is_X(arg_int)) then assert NO_WARNING report fixed_pkg'instance_name & "TO_REAL (sfixed): metavalue detected, returning 0.0" severity warning; return 0.0; end if; arg_uns := to_ufixed (arg_int); result := to_real (arg_uns); if (arg_int(arg_int'high) = '1') then result := -result; end if; return result; end function to_real; function to_integer ( arg : UNRESOLVED_ufixed; -- fixed point input constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return NATURAL is constant left_index : INTEGER := arg'high; variable arg_uns : UNSIGNED (left_index+1 downto 0) := (others => '0'); begin if (arg'length < 1) then return 0; end if; if (Is_X (arg)) then assert NO_WARNING report fixed_pkg'instance_name & "TO_INTEGER (ufixed): metavalue detected, returning 0" severity warning; return 0; end if; if (left_index < -1) then return 0; end if; arg_uns := to_uns(resize (arg => arg, left_index => arg_uns'high, right_index => 0, round_style => round_style, overflow_style => overflow_style)); return to_integer (arg_uns); end function to_integer; function to_integer ( arg : UNRESOLVED_sfixed; -- fixed point input constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return INTEGER is constant left_index : INTEGER := arg'high; constant right_index : INTEGER := arg'low; variable arg_s : SIGNED (left_index+1 downto 0); begin if (arg'length < 1) then return 0; end if; if (Is_X (arg)) then assert NO_WARNING report fixed_pkg'instance_name & "TO_INTEGER (sfixed): metavalue detected, returning 0" severity warning; return 0; end if; if (left_index < -1) then return 0; end if; arg_s := to_s(resize (arg => arg, left_index => arg_s'high, right_index => 0, round_style => round_style, overflow_style => overflow_style)); return to_integer (arg_s); end function to_integer; function to_01 ( s : UNRESOLVED_ufixed; -- ufixed point input constant XMAP : STD_ULOGIC := '0') -- Map x to return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (s'range); -- result begin if (s'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & "TO_01(ufixed): null detected, returning NULL" severity warning; return NAUF; end if; return to_fixed (to_01(to_uns(s), XMAP), s'high, s'low); end function to_01; function to_01 ( s : UNRESOLVED_sfixed; -- sfixed point input constant XMAP : STD_ULOGIC := '0') -- Map x to return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (s'range); begin if (s'length < 1) then assert NO_WARNING report fixed_pkg'instance_name & "TO_01(sfixed): null detected, returning NULL" severity warning; return NASF; end if; return to_fixed (to_01(to_s(s), XMAP), s'high, s'low); end function to_01; function Is_X ( arg : UNRESOLVED_ufixed) return BOOLEAN is variable argslv : STD_ULOGIC_VECTOR (arg'length-1 downto 0); -- slv begin argslv := to_sulv(arg); return Is_X (argslv); end function Is_X; function Is_X ( arg : UNRESOLVED_sfixed) return BOOLEAN is variable argslv : STD_ULOGIC_VECTOR (arg'length-1 downto 0); -- slv begin argslv := to_sulv(arg); return Is_X (argslv); end function Is_X; function To_X01 ( arg : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is begin return to_ufixed (To_X01(to_sulv(arg)), arg'high, arg'low); end function To_X01; function to_X01 ( arg : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is begin return to_sfixed (To_X01(to_sulv(arg)), arg'high, arg'low); end function To_X01; function To_X01Z ( arg : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is begin return to_ufixed (To_X01Z(to_sulv(arg)), arg'high, arg'low); end function To_X01Z; function to_X01Z ( arg : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is begin return to_sfixed (To_X01Z(to_sulv(arg)), arg'high, arg'low); end function To_X01Z; function To_UX01 ( arg : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is begin return to_ufixed (To_UX01(to_sulv(arg)), arg'high, arg'low); end function To_UX01; function to_UX01 ( arg : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is begin return to_sfixed (To_UX01(to_sulv(arg)), arg'high, arg'low); end function To_UX01; function resize ( arg : UNRESOLVED_ufixed; -- input constant left_index : INTEGER; -- integer portion constant right_index : INTEGER; -- size of fraction constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed is constant arghigh : INTEGER := maximum (arg'high, arg'low); constant arglow : INTEGER := mine (arg'high, arg'low); variable invec : UNRESOLVED_ufixed (arghigh downto arglow); variable result : UNRESOLVED_ufixed(left_index downto right_index) := (others => '0'); variable needs_rounding : BOOLEAN := false; begin -- resize if (arg'length < 1) or (result'length < 1) then return NAUF; elsif (invec'length < 1) then return result; -- string literal value else invec := cleanvec(arg); if (right_index > arghigh) then -- return top zeros needs_rounding := (round_style = fixed_round) and (right_index = arghigh+1); elsif (left_index < arglow) then -- return overflow if (overflow_style = fixed_saturate) and (or_reduce(to_sulv(invec)) = '1') then result := saturate (result'high, result'low); -- saturate end if; elsif (arghigh > left_index) then -- wrap or saturate? if (overflow_style = fixed_saturate and or_reduce (to_sulv(invec(arghigh downto left_index+1))) = '1') then result := saturate (result'high, result'low); -- saturate else if (arglow >= right_index) then result (left_index downto arglow) := invec(left_index downto arglow); else result (left_index downto right_index) := invec (left_index downto right_index); needs_rounding := (round_style = fixed_round); -- round end if; end if; else -- arghigh <= integer width if (arglow >= right_index) then result (arghigh downto arglow) := invec; else result (arghigh downto right_index) := invec (arghigh downto right_index); needs_rounding := (round_style = fixed_round); -- round end if; end if; -- Round result if needs_rounding then result := round_fixed (arg => result, remainder => invec (right_index-1 downto arglow), overflow_style => overflow_style); end if; return result; end if; end function resize; function resize ( arg : UNRESOLVED_sfixed; -- input constant left_index : INTEGER; -- integer portion constant right_index : INTEGER; -- size of fraction constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed is constant arghigh : INTEGER := maximum (arg'high, arg'low); constant arglow : INTEGER := mine (arg'high, arg'low); variable invec : UNRESOLVED_sfixed (arghigh downto arglow); variable result : UNRESOLVED_sfixed(left_index downto right_index) := (others => '0'); variable reduced : STD_ULOGIC; variable needs_rounding : BOOLEAN := false; -- rounding begin -- resize if (arg'length < 1) or (result'length < 1) then return NASF; elsif (invec'length < 1) then return result; -- string literal value else invec := cleanvec(arg); if (right_index > arghigh) then -- return top zeros if (arg'low /= INTEGER'low) then -- check for a literal result := (others => arg(arghigh)); -- sign extend end if; needs_rounding := (round_style = fixed_round) and (right_index = arghigh+1); elsif (left_index < arglow) then -- return overflow if (overflow_style = fixed_saturate) then reduced := or_reduce (to_sulv(invec)); if (reduced = '1') then if (invec(arghigh) = '0') then -- saturate POSITIVE result := saturate (result'high, result'low); else -- saturate negative result := not saturate (result'high, result'low); end if; -- else return 0 (input was 0) end if; -- else return 0 (wrap) end if; elsif (arghigh > left_index) then if (invec(arghigh) = '0') then reduced := or_reduce (to_sulv(invec(arghigh-1 downto left_index))); if overflow_style = fixed_saturate and reduced = '1' then -- saturate positive result := saturate (result'high, result'low); else if (right_index > arglow) then result := invec (left_index downto right_index); needs_rounding := (round_style = fixed_round); else result (left_index downto arglow) := invec (left_index downto arglow); end if; end if; else reduced := and_reduce (to_sulv(invec(arghigh-1 downto left_index))); if overflow_style = fixed_saturate and reduced = '0' then result := not saturate (result'high, result'low); else if (right_index > arglow) then result := invec (left_index downto right_index); needs_rounding := (round_style = fixed_round); else result (left_index downto arglow) := invec (left_index downto arglow); end if; end if; end if; else -- arghigh <= integer width if (arglow >= right_index) then result (arghigh downto arglow) := invec; else result (arghigh downto right_index) := invec (arghigh downto right_index); needs_rounding := (round_style = fixed_round); -- round end if; if (left_index > arghigh) then -- sign extend result(left_index downto arghigh+1) := (others => invec(arghigh)); end if; end if; -- Round result if (needs_rounding) then result := round_fixed (arg => result, remainder => invec (right_index-1 downto arglow), overflow_style => overflow_style); end if; return result; end if; end function resize; -- size_res functions -- These functions compute the size from a passed variable named "size_res" -- The only part of this variable used it it's size, it is never passed -- to a lower level routine. function to_ufixed ( arg : STD_ULOGIC_VECTOR; -- shifted vector size_res : UNRESOLVED_ufixed) -- for size only return UNRESOLVED_ufixed is constant fw : INTEGER := mine (size_res'low, size_res'low); -- catch literals variable result : UNRESOLVED_ufixed (size_res'left downto fw); begin if (result'length < 1 or arg'length < 1) then return NAUF; else result := to_ufixed (arg => arg, left_index => size_res'high, right_index => size_res'low); return result; end if; end function to_ufixed; function to_sfixed ( arg : STD_ULOGIC_VECTOR; -- shifted vector size_res : UNRESOLVED_sfixed) -- for size only return UNRESOLVED_sfixed is constant fw : INTEGER := mine (size_res'low, size_res'low); -- catch literals variable result : UNRESOLVED_sfixed (size_res'left downto fw); begin if (result'length < 1 or arg'length < 1) then return NASF; else result := to_sfixed (arg => arg, left_index => size_res'high, right_index => size_res'low); return result; end if; end function to_sfixed; function to_ufixed ( arg : NATURAL; -- integer size_res : UNRESOLVED_ufixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed is constant fw : INTEGER := mine (size_res'low, size_res'low); -- catch literals variable result : UNRESOLVED_ufixed (size_res'left downto fw); begin if (result'length < 1) then return NAUF; else result := to_ufixed (arg => arg, left_index => size_res'high, right_index => size_res'low, round_style => round_style, overflow_style => overflow_style); return result; end if; end function to_ufixed; function to_sfixed ( arg : INTEGER; -- integer size_res : UNRESOLVED_sfixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed is constant fw : INTEGER := mine (size_res'low, size_res'low); -- catch literals variable result : UNRESOLVED_sfixed (size_res'left downto fw); begin if (result'length < 1) then return NASF; else result := to_sfixed (arg => arg, left_index => size_res'high, right_index => size_res'low, round_style => round_style, overflow_style => overflow_style); return result; end if; end function to_sfixed; function to_ufixed ( arg : REAL; -- real size_res : UNRESOLVED_ufixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) -- # of guard bits return UNRESOLVED_ufixed is constant fw : INTEGER := mine (size_res'low, size_res'low); -- catch literals variable result : UNRESOLVED_ufixed (size_res'left downto fw); begin if (result'length < 1) then return NAUF; else result := to_ufixed (arg => arg, left_index => size_res'high, right_index => size_res'low, guard_bits => guard_bits, round_style => round_style, overflow_style => overflow_style); return result; end if; end function to_ufixed; function to_sfixed ( arg : REAL; -- real size_res : UNRESOLVED_sfixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style; constant guard_bits : NATURAL := fixed_guard_bits) -- # of guard bits return UNRESOLVED_sfixed is constant fw : INTEGER := mine (size_res'low, size_res'low); -- catch literals variable result : UNRESOLVED_sfixed (size_res'left downto fw); begin if (result'length < 1) then return NASF; else result := to_sfixed (arg => arg, left_index => size_res'high, right_index => size_res'low, guard_bits => guard_bits, round_style => round_style, overflow_style => overflow_style); return result; end if; end function to_sfixed; function to_ufixed ( arg : UNSIGNED; -- unsigned size_res : UNRESOLVED_ufixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed is constant fw : INTEGER := mine (size_res'low, size_res'low); -- catch literals variable result : UNRESOLVED_ufixed (size_res'left downto fw); begin if (result'length < 1 or arg'length < 1) then return NAUF; else result := to_ufixed (arg => arg, left_index => size_res'high, right_index => size_res'low, round_style => round_style, overflow_style => overflow_style); return result; end if; end function to_ufixed; function to_sfixed ( arg : SIGNED; -- signed size_res : UNRESOLVED_sfixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed is constant fw : INTEGER := mine (size_res'low, size_res'low); -- catch literals variable result : UNRESOLVED_sfixed (size_res'left downto fw); begin if (result'length < 1 or arg'length < 1) then return NASF; else result := to_sfixed (arg => arg, left_index => size_res'high, right_index => size_res'low, round_style => round_style, overflow_style => overflow_style); return result; end if; end function to_sfixed; function resize ( arg : UNRESOLVED_ufixed; -- input size_res : UNRESOLVED_ufixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_ufixed is constant fw : INTEGER := mine (size_res'low, size_res'low); -- catch literals variable result : UNRESOLVED_ufixed (size_res'high downto fw); begin if (result'length < 1 or arg'length < 1) then return NAUF; else result := resize (arg => arg, left_index => size_res'high, right_index => size_res'low, round_style => round_style, overflow_style => overflow_style); return result; end if; end function resize; function resize ( arg : UNRESOLVED_sfixed; -- input size_res : UNRESOLVED_sfixed; -- for size only constant overflow_style : fixed_overflow_style_type := fixed_overflow_style; constant round_style : fixed_round_style_type := fixed_round_style) return UNRESOLVED_sfixed is constant fw : INTEGER := mine (size_res'low, size_res'low); -- catch literals variable result : UNRESOLVED_sfixed (size_res'high downto fw); begin if (result'length < 1 or arg'length < 1) then return NASF; else result := resize (arg => arg, left_index => size_res'high, right_index => size_res'low, round_style => round_style, overflow_style => overflow_style); return result; end if; end function resize; -- Overloaded math functions for real function "+" ( l : UNRESOLVED_ufixed; -- fixed point input r : REAL) return UNRESOLVED_ufixed is begin return (l + to_ufixed (r, l'high, l'low)); end function "+"; function "+" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, r'low) + r); end function "+"; function "+" ( l : UNRESOLVED_sfixed; -- fixed point input r : REAL) return UNRESOLVED_sfixed is begin return (l + to_sfixed (r, l'high, l'low)); end function "+"; function "+" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, r'low) + r); end function "+"; function "-" ( l : UNRESOLVED_ufixed; -- fixed point input r : REAL) return UNRESOLVED_ufixed is begin return (l - to_ufixed (r, l'high, l'low)); end function "-"; function "-" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, r'low) - r); end function "-"; function "-" ( l : UNRESOLVED_sfixed; -- fixed point input r : REAL) return UNRESOLVED_sfixed is begin return (l - to_sfixed (r, l'high, l'low)); end function "-"; function "-" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, r'low) - r); end function "-"; function "" ( l : UNRESOLVED_ufixed; -- fixed point input r : REAL) return UNRESOLVED_ufixed is begin return (l * to_ufixed (r, l'high, l'low)); end function ""; function "" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, r'low) * r); end function ""; function "" ( l : UNRESOLVED_sfixed; -- fixed point input r : REAL) return UNRESOLVED_sfixed is begin return (l * to_sfixed (r, l'high, l'low)); end function ""; function "" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, r'low) * r); end function ""; function "/" ( l : UNRESOLVED_ufixed; -- fixed point input r : REAL) return UNRESOLVED_ufixed is begin return (l / to_ufixed (r, l'high, l'low)); end function "/"; function "/" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, r'low) / r); end function "/"; function "/" ( l : UNRESOLVED_sfixed; -- fixed point input r : REAL) return UNRESOLVED_sfixed is begin return (l / to_sfixed (r, l'high, l'low)); end function "/"; function "/" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, r'low) / r); end function "/"; function "rem" ( l : UNRESOLVED_ufixed; -- fixed point input r : REAL) return UNRESOLVED_ufixed is begin return (l rem to_ufixed (r, l'high, l'low)); end function "rem"; function "rem" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, r'low) rem r); end function "rem"; function "rem" ( l : UNRESOLVED_sfixed; -- fixed point input r : REAL) return UNRESOLVED_sfixed is begin return (l rem to_sfixed (r, l'high, l'low)); end function "rem"; function "rem" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, r'low) rem r); end function "rem"; function "mod" ( l : UNRESOLVED_ufixed; -- fixed point input r : REAL) return UNRESOLVED_ufixed is begin return (l mod to_ufixed (r, l'high, l'low)); end function "mod"; function "mod" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, r'low) mod r); end function "mod"; function "mod" ( l : UNRESOLVED_sfixed; -- fixed point input r : REAL) return UNRESOLVED_sfixed is begin return (l mod to_sfixed (r, l'high, l'low)); end function "mod"; function "mod" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, r'low) mod r); end function "mod"; -- Overloaded math functions for integers function "+" ( l : UNRESOLVED_ufixed; -- fixed point input r : NATURAL) return UNRESOLVED_ufixed is begin return (l + to_ufixed (r, l'high, 0)); end function "+"; function "+" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, 0) + r); end function "+"; function "+" ( l : UNRESOLVED_sfixed; -- fixed point input r : INTEGER) return UNRESOLVED_sfixed is begin return (l + to_sfixed (r, l'high, 0)); end function "+"; function "+" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, 0) + r); end function "+"; -- Overloaded functions function "-" ( l : UNRESOLVED_ufixed; -- fixed point input r : NATURAL) return UNRESOLVED_ufixed is begin return (l - to_ufixed (r, l'high, 0)); end function "-"; function "-" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, 0) - r); end function "-"; function "-" ( l : UNRESOLVED_sfixed; -- fixed point input r : INTEGER) return UNRESOLVED_sfixed is begin return (l - to_sfixed (r, l'high, 0)); end function "-"; function "-" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, 0) - r); end function "-"; -- Overloaded functions function "" ( l : UNRESOLVED_ufixed; -- fixed point input r : NATURAL) return UNRESOLVED_ufixed is begin return (l * to_ufixed (r, l'high, 0)); end function ""; function "" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, 0) * r); end function ""; function "" ( l : UNRESOLVED_sfixed; -- fixed point input r : INTEGER) return UNRESOLVED_sfixed is begin return (l * to_sfixed (r, l'high, 0)); end function ""; function "" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, 0) * r); end function ""; -- Overloaded functions function "/" ( l : UNRESOLVED_ufixed; -- fixed point input r : NATURAL) return UNRESOLVED_ufixed is begin return (l / to_ufixed (r, l'high, 0)); end function "/"; function "/" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, 0) / r); end function "/"; function "/" ( l : UNRESOLVED_sfixed; -- fixed point input r : INTEGER) return UNRESOLVED_sfixed is begin return (l / to_sfixed (r, l'high, 0)); end function "/"; function "/" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, 0) / r); end function "/"; function "rem" ( l : UNRESOLVED_ufixed; -- fixed point input r : NATURAL) return UNRESOLVED_ufixed is begin return (l rem to_ufixed (r, l'high, 0)); end function "rem"; function "rem" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, 0) rem r); end function "rem"; function "rem" ( l : UNRESOLVED_sfixed; -- fixed point input r : INTEGER) return UNRESOLVED_sfixed is begin return (l rem to_sfixed (r, l'high, 0)); end function "rem"; function "rem" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, 0) rem r); end function "rem"; function "mod" ( l : UNRESOLVED_ufixed; -- fixed point input r : NATURAL) return UNRESOLVED_ufixed is begin return (l mod to_ufixed (r, l'high, 0)); end function "mod"; function "mod" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return (to_ufixed (l, r'high, 0) mod r); end function "mod"; function "mod" ( l : UNRESOLVED_sfixed; -- fixed point input r : INTEGER) return UNRESOLVED_sfixed is begin return (l mod to_sfixed (r, l'high, 0)); end function "mod"; function "mod" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return UNRESOLVED_sfixed is begin return (to_sfixed (l, r'high, 0) mod r); end function "mod"; -- overloaded ufixed compare functions with integer function "=" ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return BOOLEAN is begin return (l = to_ufixed (r, l'high, l'low)); end function "="; function "/=" ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return BOOLEAN is begin return (l /= to_ufixed (r, l'high, l'low)); end function "/="; function ">=" ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return BOOLEAN is begin return (l >= to_ufixed (r, l'high, l'low)); end function ">="; function "<=" ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return BOOLEAN is begin return (l <= to_ufixed (r, l'high, l'low)); end function "<="; function ">" ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return BOOLEAN is begin return (l > to_ufixed (r, l'high, l'low)); end function ">"; function "<" ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return BOOLEAN is begin return (l < to_ufixed (r, l'high, l'low)); end function "<"; function \?=\ ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return STD_ULOGIC is begin return \?=\ (l, to_ufixed (r, l'high, l'low)); end function \?=\; function \?/=\ ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return STD_ULOGIC is begin return \?/=\ (l, to_ufixed (r, l'high, l'low)); end function \?/=\; function \?>=\ ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return STD_ULOGIC is begin return \?>=\ (l, to_ufixed (r, l'high, l'low)); end function \?>=\; function \?<=\ ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return STD_ULOGIC is begin return \?<=\ (l, to_ufixed (r, l'high, l'low)); end function \?<=\; function \?>\ ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return STD_ULOGIC is begin return \?>\ (l, to_ufixed (r, l'high, l'low)); end function \?>\; function \?<\ ( l : UNRESOLVED_ufixed; r : NATURAL) -- fixed point input return STD_ULOGIC is begin return \?<\ (l, to_ufixed (r, l'high, l'low)); end function \?<\; function maximum ( l : UNRESOLVED_ufixed; -- fixed point input r : NATURAL) return UNRESOLVED_ufixed is begin return maximum (l, to_ufixed (r, l'high, l'low)); end function maximum; function minimum ( l : UNRESOLVED_ufixed; -- fixed point input r : NATURAL) return UNRESOLVED_ufixed is begin return minimum (l, to_ufixed (r, l'high, l'low)); end function minimum; -- NATURAL to ufixed function "=" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) = r); end function "="; function "/=" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) /= r); end function "/="; function ">=" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) >= r); end function ">="; function "<=" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) <= r); end function "<="; function ">" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) > r); end function ">"; function "<" ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) < r); end function "<"; function \?=\ ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?=\ (to_ufixed (l, r'high, r'low), r); end function \?=\; function \?/=\ ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?/=\ (to_ufixed (l, r'high, r'low), r); end function \?/=\; function \?>=\ ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?>=\ (to_ufixed (l, r'high, r'low), r); end function \?>=\; function \?<=\ ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?<=\ (to_ufixed (l, r'high, r'low), r); end function \?<=\; function \?>\ ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?>\ (to_ufixed (l, r'high, r'low), r); end function \?>\; function \?<\ ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?<\ (to_ufixed (l, r'high, r'low), r); end function \?<\; function maximum ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return maximum (to_ufixed (l, r'high, r'low), r); end function maximum; function minimum ( l : NATURAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return minimum (to_ufixed (l, r'high, r'low), r); end function minimum; -- overloaded ufixed compare functions with real function "=" ( l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN is begin return (l = to_ufixed (r, l'high, l'low)); end function "="; function "/=" ( l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN is begin return (l /= to_ufixed (r, l'high, l'low)); end function "/="; function ">=" ( l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN is begin return (l >= to_ufixed (r, l'high, l'low)); end function ">="; function "<=" ( l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN is begin return (l <= to_ufixed (r, l'high, l'low)); end function "<="; function ">" ( l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN is begin return (l > to_ufixed (r, l'high, l'low)); end function ">"; function "<" ( l : UNRESOLVED_ufixed; r : REAL) return BOOLEAN is begin return (l < to_ufixed (r, l'high, l'low)); end function "<"; function \?=\ ( l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC is begin return \?=\ (l, to_ufixed (r, l'high, l'low)); end function \?=\; function \?/=\ ( l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC is begin return \?/=\ (l, to_ufixed (r, l'high, l'low)); end function \?/=\; function \?>=\ ( l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC is begin return \?>=\ (l, to_ufixed (r, l'high, l'low)); end function \?>=\; function \?<=\ ( l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC is begin return \?<=\ (l, to_ufixed (r, l'high, l'low)); end function \?<=\; function \?>\ ( l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC is begin return \?>\ (l, to_ufixed (r, l'high, l'low)); end function \?>\; function \?<\ ( l : UNRESOLVED_ufixed; r : REAL) return STD_ULOGIC is begin return \?<\ (l, to_ufixed (r, l'high, l'low)); end function \?<\; function maximum ( l : UNRESOLVED_ufixed; r : REAL) return UNRESOLVED_ufixed is begin return maximum (l, to_ufixed (r, l'high, l'low)); end function maximum; function minimum ( l : UNRESOLVED_ufixed; r : REAL) return UNRESOLVED_ufixed is begin return minimum (l, to_ufixed (r, l'high, l'low)); end function minimum; -- real and ufixed function "=" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) = r); end function "="; function "/=" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) /= r); end function "/="; function ">=" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) >= r); end function ">="; function "<=" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) <= r); end function "<="; function ">" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) > r); end function ">"; function "<" ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return BOOLEAN is begin return (to_ufixed (l, r'high, r'low) < r); end function "<"; function \?=\ ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?=\ (to_ufixed (l, r'high, r'low), r); end function \?=\; function \?/=\ ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?/=\ (to_ufixed (l, r'high, r'low), r); end function \?/=\; function \?>=\ ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?>=\ (to_ufixed (l, r'high, r'low), r); end function \?>=\; function \?<=\ ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?<=\ (to_ufixed (l, r'high, r'low), r); end function \?<=\; function \?>\ ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?>\ (to_ufixed (l, r'high, r'low), r); end function \?>\; function \?<\ ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return STD_ULOGIC is begin return \?<\ (to_ufixed (l, r'high, r'low), r); end function \?<\; function maximum ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return maximum (to_ufixed (l, r'high, r'low), r); end function maximum; function minimum ( l : REAL; r : UNRESOLVED_ufixed) -- fixed point input return UNRESOLVED_ufixed is begin return minimum (to_ufixed (l, r'high, r'low), r); end function minimum; -- overloaded sfixed compare functions with integer function "=" ( l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN is begin return (l = to_sfixed (r, l'high, l'low)); end function "="; function "/=" ( l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN is begin return (l /= to_sfixed (r, l'high, l'low)); end function "/="; function ">=" ( l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN is begin return (l >= to_sfixed (r, l'high, l'low)); end function ">="; function "<=" ( l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN is begin return (l <= to_sfixed (r, l'high, l'low)); end function "<="; function ">" ( l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN is begin return (l > to_sfixed (r, l'high, l'low)); end function ">"; function "<" ( l : UNRESOLVED_sfixed; r : INTEGER) return BOOLEAN is begin return (l < to_sfixed (r, l'high, l'low)); end function "<"; function \?=\ ( l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC is begin return \?=\ (l, to_sfixed (r, l'high, l'low)); end function \?=\; function \?/=\ ( l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC is begin return \?/=\ (l, to_sfixed (r, l'high, l'low)); end function \?/=\; function \?>=\ ( l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC is begin return \?>=\ (l, to_sfixed (r, l'high, l'low)); end function \?>=\; function \?<=\ ( l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC is begin return \?<=\ (l, to_sfixed (r, l'high, l'low)); end function \?<=\; function \?>\ ( l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC is begin return \?>\ (l, to_sfixed (r, l'high, l'low)); end function \?>\; function \?<\ ( l : UNRESOLVED_sfixed; r : INTEGER) return STD_ULOGIC is begin return \?<\ (l, to_sfixed (r, l'high, l'low)); end function \?<\; function maximum ( l : UNRESOLVED_sfixed; r : INTEGER) return UNRESOLVED_sfixed is begin return maximum (l, to_sfixed (r, l'high, l'low)); end function maximum; function minimum ( l : UNRESOLVED_sfixed; r : INTEGER) return UNRESOLVED_sfixed is begin return minimum (l, to_sfixed (r, l'high, l'low)); end function minimum; -- integer and sfixed function "=" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) = r); end function "="; function "/=" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) /= r); end function "/="; function ">=" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) >= r); end function ">="; function "<=" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) <= r); end function "<="; function ">" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) > r); end function ">"; function "<" ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) < r); end function "<"; function \?=\ ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?=\ (to_sfixed (l, r'high, r'low), r); end function \?=\; function \?/=\ ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?/=\ (to_sfixed (l, r'high, r'low), r); end function \?/=\; function \?>=\ ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?>=\ (to_sfixed (l, r'high, r'low), r); end function \?>=\; function \?<=\ ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?<=\ (to_sfixed (l, r'high, r'low), r); end function \?<=\; function \?>\ ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?>\ (to_sfixed (l, r'high, r'low), r); end function \?>\; function \?<\ ( l : INTEGER; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?<\ (to_sfixed (l, r'high, r'low), r); end function \?<\; function maximum ( l : INTEGER; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is begin return maximum (to_sfixed (l, r'high, r'low), r); end function maximum; function minimum ( l : INTEGER; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is begin return minimum (to_sfixed (l, r'high, r'low), r); end function minimum; -- overloaded sfixed compare functions with real function "=" ( l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN is begin return (l = to_sfixed (r, l'high, l'low)); end function "="; function "/=" ( l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN is begin return (l /= to_sfixed (r, l'high, l'low)); end function "/="; function ">=" ( l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN is begin return (l >= to_sfixed (r, l'high, l'low)); end function ">="; function "<=" ( l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN is begin return (l <= to_sfixed (r, l'high, l'low)); end function "<="; function ">" ( l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN is begin return (l > to_sfixed (r, l'high, l'low)); end function ">"; function "<" ( l : UNRESOLVED_sfixed; r : REAL) return BOOLEAN is begin return (l < to_sfixed (r, l'high, l'low)); end function "<"; function \?=\ ( l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC is begin return \?=\ (l, to_sfixed (r, l'high, l'low)); end function \?=\; function \?/=\ ( l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC is begin return \?/=\ (l, to_sfixed (r, l'high, l'low)); end function \?/=\; function \?>=\ ( l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC is begin return \?>=\ (l, to_sfixed (r, l'high, l'low)); end function \?>=\; function \?<=\ ( l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC is begin return \?<=\ (l, to_sfixed (r, l'high, l'low)); end function \?<=\; function \?>\ ( l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC is begin return \?>\ (l, to_sfixed (r, l'high, l'low)); end function \?>\; function \?<\ ( l : UNRESOLVED_sfixed; r : REAL) return STD_ULOGIC is begin return \?<\ (l, to_sfixed (r, l'high, l'low)); end function \?<\; function maximum ( l : UNRESOLVED_sfixed; r : REAL) return UNRESOLVED_sfixed is begin return maximum (l, to_sfixed (r, l'high, l'low)); end function maximum; function minimum ( l : UNRESOLVED_sfixed; r : REAL) return UNRESOLVED_sfixed is begin return minimum (l, to_sfixed (r, l'high, l'low)); end function minimum; -- REAL and sfixed function "=" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) = r); end function "="; function "/=" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) /= r); end function "/="; function ">=" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) >= r); end function ">="; function "<=" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) <= r); end function "<="; function ">" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) > r); end function ">"; function "<" ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return BOOLEAN is begin return (to_sfixed (l, r'high, r'low) < r); end function "<"; function \?=\ ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?=\ (to_sfixed (l, r'high, r'low), r); end function \?=\; function \?/=\ ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?/=\ (to_sfixed (l, r'high, r'low), r); end function \?/=\; function \?>=\ ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?>=\ (to_sfixed (l, r'high, r'low), r); end function \?>=\; function \?<=\ ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?<=\ (to_sfixed (l, r'high, r'low), r); end function \?<=\; function \?>\ ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?>\ (to_sfixed (l, r'high, r'low), r); end function \?>\; function \?<\ ( l : REAL; r : UNRESOLVED_sfixed) -- fixed point input return STD_ULOGIC is begin return \?<\ (to_sfixed (l, r'high, r'low), r); end function \?<\; function maximum ( l : REAL; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is begin return maximum (to_sfixed (l, r'high, r'low), r); end function maximum; function minimum ( l : REAL; r : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is begin return minimum (to_sfixed (l, r'high, r'low), r); end function minimum; -- rtl_synthesis off -- pragma synthesis_off -- copied from std_logic_textio type MVL9plus is ('U', 'X', '0', '1', 'Z', 'W', 'L', 'H', '-', error); type char_indexed_by_MVL9 is array (STD_ULOGIC) of CHARACTER; type MVL9_indexed_by_char is array (CHARACTER) of STD_ULOGIC; type MVL9plus_indexed_by_char is array (CHARACTER) of MVL9plus; constant MVL9_to_char : char_indexed_by_MVL9 := "UX01ZWLH-"; constant char_to_MVL9 : MVL9_indexed_by_char := ('U' => 'U', 'X' => 'X', '0' => '0', '1' => '1', 'Z' => 'Z', 'W' => 'W', 'L' => 'L', 'H' => 'H', '-' => '-', others => 'U'); constant char_to_MVL9plus : MVL9plus_indexed_by_char := ('U' => 'U', 'X' => 'X', '0' => '0', '1' => '1', 'Z' => 'Z', 'W' => 'W', 'L' => 'L', 'H' => 'H', '-' => '-', others => error); constant NBSP : CHARACTER := CHARACTER'val(160); -- space character constant NUS : STRING(2 to 1) := (others => ' '); -- %%% Replicated Textio functions procedure Char2TriBits (C : CHARACTER; RESULT : out STD_ULOGIC_VECTOR(2 downto 0); GOOD : out BOOLEAN; ISSUE_ERROR : in BOOLEAN) is begin case c is when '0' => result := o"0"; good := true; when '1' => result := o"1"; good := true; when '2' => result := o"2"; good := true; when '3' => result := o"3"; good := true; when '4' => result := o"4"; good := true; when '5' => result := o"5"; good := true; when '6' => result := o"6"; good := true; when '7' => result := o"7"; good := true; when 'Z' => result := "ZZZ"; good := true; when 'X' => result := "XXX"; good := true; when others => assert not ISSUE_ERROR report fixed_pkg'instance_name & "OREAD Error: Read a '" & c & "', expected an Octal character (0-7)." severity error; result := "UUU"; good := false; end case; end procedure Char2TriBits; -- Hex Read and Write procedures for STD_ULOGIC_VECTOR. -- Modified from the original to be more forgiving. procedure Char2QuadBits (C : CHARACTER; RESULT : out STD_ULOGIC_VECTOR(3 downto 0); GOOD : out BOOLEAN; ISSUE_ERROR : in BOOLEAN) is begin case c is when '0' => result := x"0"; good := true; when '1' => result := x"1"; good := true; when '2' => result := x"2"; good := true; when '3' => result := x"3"; good := true; when '4' => result := x"4"; good := true; when '5' => result := x"5"; good := true; when '6' => result := x"6"; good := true; when '7' => result := x"7"; good := true; when '8' => result := x"8"; good := true; when '9' => result := x"9"; good := true; when 'A' \| 'a' => result := x"A"; good := true; when 'B' \| 'b' => result := x"B"; good := true; when 'C' \| 'c' => result := x"C"; good := true; when 'D' \| 'd' => result := x"D"; good := true; when 'E' \| 'e' => result := x"E"; good := true; when 'F' \| 'f' => result := x"F"; good := true; when 'Z' => result := "ZZZZ"; good := true; when 'X' => result := "XXXX"; good := true; when others => assert not ISSUE_ERROR report fixed_pkg'instance_name & "HREAD Error: Read a '" & c & "', expected a Hex character (0-F)." severity error; result := "UUUU"; good := false; end case; end procedure Char2QuadBits; -- purpose: Skips white space procedure skip_whitespace ( L : inout LINE) is variable readOk : BOOLEAN; variable c : CHARACTER; begin while L /= null and L.all'length /= 0 loop if (L.all(1) = ' ' or L.all(1) = NBSP or L.all(1) = HT) then read (l, c, readOk); else exit; end if; end loop; end procedure skip_whitespace; function to_ostring (value : STD_ULOGIC_VECTOR) return STRING is constant ne : INTEGER := (value'length+2)/3; variable pad : STD_ULOGIC_VECTOR(0 to (ne3 - value'length) - 1); variable ivalue : STD_ULOGIC_VECTOR(0 to ne3 - 1); variable result : STRING(1 to ne); variable tri : STD_ULOGIC_VECTOR(0 to 2); begin if value'length < 1 then return NUS; else if value (value'left) = 'Z' then pad := (others => 'Z'); else pad := (others => '0'); end if; ivalue := pad & value; for i in 0 to ne-1 loop tri := To_X01Z(ivalue(3i to 3i+2)); case tri is when o"0" => result(i+1) := '0'; when o"1" => result(i+1) := '1'; when o"2" => result(i+1) := '2'; when o"3" => result(i+1) := '3'; when o"4" => result(i+1) := '4'; when o"5" => result(i+1) := '5'; when o"6" => result(i+1) := '6'; when o"7" => result(i+1) := '7'; when "ZZZ" => result(i+1) := 'Z'; when others => result(i+1) := 'X'; end case; end loop; return result; end if; end function to_ostring; ------------------------------------------------------------------- function to_hstring (value : STD_ULOGIC_VECTOR) return STRING is constant ne : INTEGER := (value'length+3)/4; variable pad : STD_ULOGIC_VECTOR(0 to (ne4 - value'length) - 1); variable ivalue : STD_ULOGIC_VECTOR(0 to ne4 - 1); variable result : STRING(1 to ne); variable quad : STD_ULOGIC_VECTOR(0 to 3); begin if value'length < 1 then return NUS; else if value (value'left) = 'Z' then pad := (others => 'Z'); else pad := (others => '0'); end if; ivalue := pad & value; for i in 0 to ne-1 loop quad := To_X01Z(ivalue(4i to 4i+3)); case quad is when x"0" => result(i+1) := '0'; when x"1" => result(i+1) := '1'; when x"2" => result(i+1) := '2'; when x"3" => result(i+1) := '3'; when x"4" => result(i+1) := '4'; when x"5" => result(i+1) := '5'; when x"6" => result(i+1) := '6'; when x"7" => result(i+1) := '7'; when x"8" => result(i+1) := '8'; when x"9" => result(i+1) := '9'; when x"A" => result(i+1) := 'A'; when x"B" => result(i+1) := 'B'; when x"C" => result(i+1) := 'C'; when x"D" => result(i+1) := 'D'; when x"E" => result(i+1) := 'E'; when x"F" => result(i+1) := 'F'; when "ZZZZ" => result(i+1) := 'Z'; when others => result(i+1) := 'X'; end case; end loop; return result; end if; end function to_hstring; -- %%% END replicated textio functions -- purpose: writes fixed point into a line procedure write ( L : inout LINE; -- input line VALUE : in UNRESOLVED_ufixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0) is variable s : STRING(1 to value'length +1) := (others => ' '); variable sindx : INTEGER; begin -- function write Example: 0011.1100 sindx := 1; for i in value'high downto value'low loop if i = -1 then s(sindx) := '.'; sindx := sindx + 1; end if; s(sindx) := MVL9_to_char(STD_ULOGIC(value(i))); sindx := sindx + 1; end loop; write(l, s, justified, field); end procedure write; -- purpose: writes fixed point into a line procedure write ( L : inout LINE; -- input line VALUE : in UNRESOLVED_sfixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0) is variable s : STRING(1 to value'length +1); variable sindx : INTEGER; begin -- function write Example: 0011.1100 sindx := 1; for i in value'high downto value'low loop if i = -1 then s(sindx) := '.'; sindx := sindx + 1; end if; s(sindx) := MVL9_to_char(STD_ULOGIC(value(i))); sindx := sindx + 1; end loop; write(l, s, justified, field); end procedure write; procedure READ(L : inout LINE; VALUE : out UNRESOLVED_ufixed) is -- Possible data: 00000.0000000 -- 000000000000 variable c : CHARACTER; variable readOk : BOOLEAN; variable i : INTEGER; -- index variable variable mv : ufixed (VALUE'range); variable lastu : BOOLEAN := false; -- last character was an "_" variable founddot : BOOLEAN := false; -- found a "." begin -- READ VALUE := (VALUE'range => 'U'); Skip_whitespace (L); if VALUE'length > 0 then -- non Null input string read (l, c, readOk); i := value'high; while i >= VALUE'low loop if readOk = false then -- Bail out if there was a bad read report fixed_pkg'instance_name & "READ(ufixed) " & "End of string encountered" severity error; return; elsif c = '_' then if i = value'high then report fixed_pkg'instance_name & "READ(ufixed) " & "String begins with an ""_""" severity error; return; elsif lastu then report fixed_pkg'instance_name & "READ(ufixed) " & "Two underscores detected in input string ""__""" severity error; return; else lastu := true; end if; elsif c = '.' then -- binary point if founddot then report fixed_pkg'instance_name & "READ(ufixed) " & "Two binary points found in input string" severity error; return; elsif i /= -1 then -- Seperator in the wrong spot report fixed_pkg'instance_name & "READ(ufixed) " & "Decimal point does not match number format " severity error; return; end if; founddot := true; lastu := false; elsif c = ' ' or c = NBSP or c = HT then -- reading done. report fixed_pkg'instance_name & "READ(ufixed) " & "Short read, Space encounted in input string" severity error; return; elsif char_to_MVL9plus(c) = error then report fixed_pkg'instance_name & "READ(ufixed) " & "Character '" & c & "' read, expected STD_ULOGIC literal." severity error; return; else mv(i) := char_to_MVL9(c); i := i - 1; if i < mv'low then VALUE := mv; return; end if; lastu := false; end if; read(L, c, readOk); end loop; end if; end procedure READ; procedure READ(L : inout LINE; VALUE : out UNRESOLVED_ufixed; GOOD : out BOOLEAN) is -- Possible data: 00000.0000000 -- 000000000000 variable c : CHARACTER; variable readOk : BOOLEAN; variable mv : ufixed (VALUE'range); variable i : INTEGER; -- index variable variable lastu : BOOLEAN := false; -- last character was an "_" variable founddot : BOOLEAN := false; -- found a "." begin -- READ VALUE := (VALUE'range => 'U'); Skip_whitespace (L); if VALUE'length > 0 then read (l, c, readOk); i := value'high; GOOD := false; while i >= VALUE'low loop if not readOk then -- Bail out if there was a bad read return; elsif c = '_' then if i = value'high then -- Begins with an "_" return; elsif lastu then -- "__" detected return; else lastu := true; end if; elsif c = '.' then -- binary point if founddot then return; elsif i /= -1 then -- Seperator in the wrong spot return; end if; founddot := true; lastu := false; elsif (char_to_MVL9plus(c) = error) then -- Illegal character/short read return; else mv(i) := char_to_MVL9(c); i := i - 1; if i < mv'low then -- reading done GOOD := true; VALUE := mv; return; end if; lastu := false; end if; read(L, c, readOk); end loop; else GOOD := true; -- read into a null array end if; end procedure READ; procedure READ(L : inout LINE; VALUE : out UNRESOLVED_sfixed) is variable c : CHARACTER; variable readOk : BOOLEAN; variable i : INTEGER; -- index variable variable mv : sfixed (VALUE'range); variable lastu : BOOLEAN := false; -- last character was an "_" variable founddot : BOOLEAN := false; -- found a "." begin -- READ VALUE := (VALUE'range => 'U'); Skip_whitespace (L); if VALUE'length > 0 then -- non Null input string read (l, c, readOk); i := value'high; while i >= VALUE'low loop if readOk = false then -- Bail out if there was a bad read report fixed_pkg'instance_name & "READ(sfixed) " & "End of string encountered" severity error; return; elsif c = '_' then if i = value'high then report fixed_pkg'instance_name & "READ(sfixed) " & "String begins with an ""_""" severity error; return; elsif lastu then report fixed_pkg'instance_name & "READ(sfixed) " & "Two underscores detected in input string ""__""" severity error; return; else lastu := true; end if; elsif c = '.' then -- binary point if founddot then report fixed_pkg'instance_name & "READ(sfixed) " & "Two binary points found in input string" severity error; return; elsif i /= -1 then -- Seperator in the wrong spot report fixed_pkg'instance_name & "READ(sfixed) " & "Decimal point does not match number format " severity error; return; end if; founddot := true; lastu := false; elsif c = ' ' or c = NBSP or c = HT then -- reading done. report fixed_pkg'instance_name & "READ(sfixed) " & "Short read, Space encounted in input string" severity error; return; elsif char_to_MVL9plus(c) = error then report fixed_pkg'instance_name & "READ(sfixed) " & "Character '" & c & "' read, expected STD_ULOGIC literal." severity error; return; else mv(i) := char_to_MVL9(c); i := i - 1; if i < mv'low then VALUE := mv; return; end if; lastu := false; end if; read(L, c, readOk); end loop; end if; end procedure READ; procedure READ(L : inout LINE; VALUE : out UNRESOLVED_sfixed; GOOD : out BOOLEAN) is variable value_ufixed : UNRESOLVED_ufixed (VALUE'range); begin -- READ READ (L => L, VALUE => value_ufixed, GOOD => GOOD); VALUE := UNRESOLVED_sfixed (value_ufixed); end procedure READ; -- octal read and write procedure owrite ( L : inout LINE; -- input line VALUE : in UNRESOLVED_ufixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0) is begin -- Example 03.30 write (L => L, VALUE => to_ostring (VALUE), JUSTIFIED => JUSTIFIED, FIELD => FIELD); end procedure owrite; procedure owrite ( L : inout LINE; -- input line VALUE : in UNRESOLVED_sfixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0) is begin -- Example 03.30 write (L => L, VALUE => to_ostring (VALUE), JUSTIFIED => JUSTIFIED, FIELD => FIELD); end procedure owrite; -- purpose: Routines common to the OREAD routines procedure OREAD_common ( L : inout LINE; slv : out STD_ULOGIC_VECTOR; igood : out BOOLEAN; idex : out INTEGER; constant bpoint : in INTEGER; -- binary point constant message : in BOOLEAN; constant smath : in BOOLEAN) is -- purpose: error message routine procedure errmes ( constant mess : in STRING) is -- error message begin if message then if smath then report fixed_pkg'instance_name & "OREAD(sfixed) " & mess severity error; else report fixed_pkg'instance_name & "OREAD(ufixed) " & mess severity error; end if; end if; end procedure errmes; variable xgood : BOOLEAN; variable nybble : STD_ULOGIC_VECTOR (2 downto 0); -- 3 bits variable c : CHARACTER; variable i : INTEGER; variable lastu : BOOLEAN := false; -- last character was an "_" variable founddot : BOOLEAN := false; -- found a dot. begin Skip_whitespace (L); if slv'length > 0 then i := slv'high; read (l, c, xgood); while i > 0 loop if xgood = false then errmes ("Error: end of string encountered"); exit; elsif c = '_' then if i = slv'length then errmes ("Error: String begins with an ""_"""); xgood := false; exit; elsif lastu then errmes ("Error: Two underscores detected in input string ""__"""); xgood := false; exit; else lastu := true; end if; elsif (c = '.') then if (i + 1 /= bpoint) then errmes ("encountered ""."" at wrong index"); xgood := false; exit; elsif i = slv'length then errmes ("encounted a ""."" at the beginning of the line"); xgood := false; exit; elsif founddot then errmes ("Two ""."" encounted in input string"); xgood := false; exit; end if; founddot := true; lastu := false; else Char2triBits(c, nybble, xgood, message); if not xgood then exit; end if; slv (i downto i-2) := nybble; i := i - 3; lastu := false; end if; if i > 0 then read (L, c, xgood); end if; end loop; idex := i; igood := xgood; else igood := true; -- read into a null array idex := -1; end if; end procedure OREAD_common; -- Note that for Octal and Hex read, you can not start with a ".", -- the read is for numbers formatted "A.BC". These routines go to -- the nearest bounds, so "F.E" will fit into an sfixed (2 downto -3). procedure OREAD (L : inout LINE; VALUE : out UNRESOLVED_ufixed) is constant hbv : INTEGER := (((maximum(3, (VALUE'high+1))+2)/3)3)-1; constant lbv : INTEGER := ((mine(0, VALUE'low)-2)/3)3; variable slv : STD_ULOGIC_VECTOR (hbv-lbv downto 0); -- high bits variable valuex : UNRESOLVED_ufixed (hbv downto lbv); variable igood : BOOLEAN; variable i : INTEGER; begin VALUE := (VALUE'range => 'U'); OREAD_common ( L => L, slv => slv, igood => igood, idex => i, bpoint => -lbv, message => true, smath => false); if igood then -- We did not get another error if not ((i = -1) and -- We read everything, and high bits 0 (or_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '0')) then report fixed_pkg'instance_name & "OREAD(ufixed): Vector truncated." severity error; else if (or_reduce (slv(VALUE'low-lbv-1 downto 0)) = '1') then assert NO_WARNING report fixed_pkg'instance_name & "OREAD(ufixed): Vector truncated" severity warning; end if; valuex := to_ufixed (slv, hbv, lbv); VALUE := valuex (VALUE'range); end if; end if; end procedure OREAD; procedure OREAD(L : inout LINE; VALUE : out UNRESOLVED_ufixed; GOOD : out BOOLEAN) is constant hbv : INTEGER := (((maximum(3, (VALUE'high+1))+2)/3)3)-1; constant lbv : INTEGER := ((mine(0, VALUE'low)-2)/3)3; variable slv : STD_ULOGIC_VECTOR (hbv-lbv downto 0); -- high bits variable valuex : UNRESOLVED_ufixed (hbv downto lbv); variable igood : BOOLEAN; variable i : INTEGER; begin VALUE := (VALUE'range => 'U'); OREAD_common ( L => L, slv => slv, igood => igood, idex => i, bpoint => -lbv, message => false, smath => false); if (igood and -- We did not get another error (i = -1) and -- We read everything, and high bits 0 (or_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '0')) then valuex := to_ufixed (slv, hbv, lbv); VALUE := valuex (VALUE'range); good := true; else good := false; end if; end procedure OREAD; procedure OREAD(L : inout LINE; VALUE : out UNRESOLVED_sfixed) is constant hbv : INTEGER := (((maximum(3, (VALUE'high+1))+2)/3)3)-1; constant lbv : INTEGER := ((mine(0, VALUE'low)-2)/3)3; variable slv : STD_ULOGIC_VECTOR (hbv-lbv downto 0); -- high bits variable valuex : UNRESOLVED_sfixed (hbv downto lbv); variable igood : BOOLEAN; variable i : INTEGER; begin VALUE := (VALUE'range => 'U'); OREAD_common ( L => L, slv => slv, igood => igood, idex => i, bpoint => -lbv, message => true, smath => true); if igood then -- We did not get another error if not ((i = -1) and -- We read everything ((slv(VALUE'high-lbv) = '0' and -- sign bits = extra bits or_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '0') or (slv(VALUE'high-lbv) = '1' and and_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '1'))) then report fixed_pkg'instance_name & "OREAD(sfixed): Vector truncated." severity error; else if (or_reduce (slv(VALUE'low-lbv-1 downto 0)) = '1') then assert NO_WARNING report fixed_pkg'instance_name & "OREAD(sfixed): Vector truncated" severity warning; end if; valuex := to_sfixed (slv, hbv, lbv); VALUE := valuex (VALUE'range); end if; end if; end procedure OREAD; procedure OREAD(L : inout LINE; VALUE : out UNRESOLVED_sfixed; GOOD : out BOOLEAN) is constant hbv : INTEGER := (((maximum(3, (VALUE'high+1))+2)/3)3)-1; constant lbv : INTEGER := ((mine(0, VALUE'low)-2)/3)3; variable slv : STD_ULOGIC_VECTOR (hbv-lbv downto 0); -- high bits variable valuex : UNRESOLVED_sfixed (hbv downto lbv); variable igood : BOOLEAN; variable i : INTEGER; begin VALUE := (VALUE'range => 'U'); OREAD_common ( L => L, slv => slv, igood => igood, idex => i, bpoint => -lbv, message => false, smath => true); if (igood -- We did not get another error and (i = -1) -- We read everything and ((slv(VALUE'high-lbv) = '0' and -- sign bits = extra bits or_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '0') or (slv(VALUE'high-lbv) = '1' and and_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '1'))) then valuex := to_sfixed (slv, hbv, lbv); VALUE := valuex (VALUE'range); good := true; else good := false; end if; end procedure OREAD; -- hex read and write procedure hwrite ( L : inout LINE; -- input line VALUE : in UNRESOLVED_ufixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0) is begin -- Example 03.30 write (L => L, VALUE => to_hstring (VALUE), JUSTIFIED => JUSTIFIED, FIELD => FIELD); end procedure hwrite; -- purpose: writes fixed point into a line procedure hwrite ( L : inout LINE; -- input line VALUE : in UNRESOLVED_sfixed; -- fixed point input JUSTIFIED : in SIDE := right; FIELD : in WIDTH := 0) is begin -- Example 03.30 write (L => L, VALUE => to_hstring (VALUE), JUSTIFIED => JUSTIFIED, FIELD => FIELD); end procedure hwrite; -- purpose: Routines common to the OREAD routines procedure HREAD_common ( L : inout LINE; slv : out STD_ULOGIC_VECTOR; igood : out BOOLEAN; idex : out INTEGER; constant bpoint : in INTEGER; -- binary point constant message : in BOOLEAN; constant smath : in BOOLEAN) is -- purpose: error message routine procedure errmes ( constant mess : in STRING) is -- error message begin if message then if smath then report fixed_pkg'instance_name & "HREAD(sfixed) " & mess severity error; else report fixed_pkg'instance_name & "HREAD(ufixed) " & mess severity error; end if; end if; end procedure errmes; variable xgood : BOOLEAN; variable nybble : STD_ULOGIC_VECTOR (3 downto 0); -- 4 bits variable c : CHARACTER; variable i : INTEGER; variable lastu : BOOLEAN := false; -- last character was an "_" variable founddot : BOOLEAN := false; -- found a dot. begin Skip_whitespace (L); if slv'length > 0 then i := slv'high; read (l, c, xgood); while i > 0 loop if xgood = false then errmes ("Error: end of string encountered"); exit; elsif c = '_' then if i = slv'length then errmes ("Error: String begins with an ""_"""); xgood := false; exit; elsif lastu then errmes ("Error: Two underscores detected in input string ""__"""); xgood := false; exit; else lastu := true; end if; elsif (c = '.') then if (i + 1 /= bpoint) then errmes ("encountered ""."" at wrong index"); xgood := false; exit; elsif i = slv'length then errmes ("encounted a ""."" at the beginning of the line"); xgood := false; exit; elsif founddot then errmes ("Two ""."" encounted in input string"); xgood := false; exit; end if; founddot := true; lastu := false; else Char2QuadBits(c, nybble, xgood, message); if not xgood then exit; end if; slv (i downto i-3) := nybble; i := i - 4; lastu := false; end if; if i > 0 then read (L, c, xgood); end if; end loop; idex := i; igood := xgood; else idex := -1; igood := true; -- read null string end if; end procedure HREAD_common; procedure HREAD(L : inout LINE; VALUE : out UNRESOLVED_ufixed) is constant hbv : INTEGER := (((maximum(4, (VALUE'high+1))+3)/4)4)-1; constant lbv : INTEGER := ((mine(0, VALUE'low)-3)/4)4; variable slv : STD_ULOGIC_VECTOR (hbv-lbv downto 0); -- high bits variable valuex : UNRESOLVED_ufixed (hbv downto lbv); variable igood : BOOLEAN; variable i : INTEGER; begin VALUE := (VALUE'range => 'U'); HREAD_common ( L => L, slv => slv, igood => igood, idex => i, bpoint => -lbv, message => false, smath => false); if igood then if not ((i = -1) and -- We read everything, and high bits 0 (or_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '0')) then report fixed_pkg'instance_name & "HREAD(ufixed): Vector truncated." severity error; else if (or_reduce (slv(VALUE'low-lbv-1 downto 0)) = '1') then assert NO_WARNING report fixed_pkg'instance_name & "HREAD(ufixed): Vector truncated" severity warning; end if; valuex := to_ufixed (slv, hbv, lbv); VALUE := valuex (VALUE'range); end if; end if; end procedure HREAD; procedure HREAD(L : inout LINE; VALUE : out UNRESOLVED_ufixed; GOOD : out BOOLEAN) is constant hbv : INTEGER := (((maximum(4, (VALUE'high+1))+3)/4)4)-1; constant lbv : INTEGER := ((mine(0, VALUE'low)-3)/4)4; variable slv : STD_ULOGIC_VECTOR (hbv-lbv downto 0); -- high bits variable valuex : UNRESOLVED_ufixed (hbv downto lbv); variable igood : BOOLEAN; variable i : INTEGER; begin VALUE := (VALUE'range => 'U'); HREAD_common ( L => L, slv => slv, igood => igood, idex => i, bpoint => -lbv, message => false, smath => false); if (igood and -- We did not get another error (i = -1) and -- We read everything, and high bits 0 (or_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '0')) then valuex := to_ufixed (slv, hbv, lbv); VALUE := valuex (VALUE'range); good := true; else good := false; end if; end procedure HREAD; procedure HREAD(L : inout LINE; VALUE : out UNRESOLVED_sfixed) is constant hbv : INTEGER := (((maximum(4, (VALUE'high+1))+3)/4)4)-1; constant lbv : INTEGER := ((mine(0, VALUE'low)-3)/4)4; variable slv : STD_ULOGIC_VECTOR (hbv-lbv downto 0); -- high bits variable valuex : UNRESOLVED_sfixed (hbv downto lbv); variable igood : BOOLEAN; variable i : INTEGER; begin VALUE := (VALUE'range => 'U'); HREAD_common ( L => L, slv => slv, igood => igood, idex => i, bpoint => -lbv, message => true, smath => true); if igood then -- We did not get another error if not ((i = -1) -- We read everything and ((slv(VALUE'high-lbv) = '0' and -- sign bits = extra bits or_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '0') or (slv(VALUE'high-lbv) = '1' and and_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '1'))) then report fixed_pkg'instance_name & "HREAD(sfixed): Vector truncated." severity error; else if (or_reduce (slv(VALUE'low-lbv-1 downto 0)) = '1') then assert NO_WARNING report fixed_pkg'instance_name & "HREAD(sfixed): Vector truncated" severity warning; end if; valuex := to_sfixed (slv, hbv, lbv); VALUE := valuex (VALUE'range); end if; end if; end procedure HREAD; procedure HREAD(L : inout LINE; VALUE : out UNRESOLVED_sfixed; GOOD : out BOOLEAN) is constant hbv : INTEGER := (((maximum(4, (VALUE'high+1))+3)/4)4)-1; constant lbv : INTEGER := ((mine(0, VALUE'low)-3)/4)4; variable slv : STD_ULOGIC_VECTOR (hbv-lbv downto 0); -- high bits variable valuex : UNRESOLVED_sfixed (hbv downto lbv); variable igood : BOOLEAN; variable i : INTEGER; begin VALUE := (VALUE'range => 'U'); HREAD_common ( L => L, slv => slv, igood => igood, idex => i, bpoint => -lbv, message => false, smath => true); if (igood and -- We did not get another error (i = -1) and -- We read everything ((slv(VALUE'high-lbv) = '0' and -- sign bits = extra bits or_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '0') or (slv(VALUE'high-lbv) = '1' and and_reduce (slv(hbv-lbv downto VALUE'high+1-lbv)) = '1'))) then valuex := to_sfixed (slv, hbv, lbv); VALUE := valuex (VALUE'range); good := true; else good := false; end if; end procedure HREAD; function to_string (value : UNRESOLVED_ufixed) return STRING is variable s : STRING(1 to value'length +1) := (others => ' '); variable subval : UNRESOLVED_ufixed (value'high downto -1); variable sindx : INTEGER; begin if value'length < 1 then return NUS; else if value'high < 0 then if value(value'high) = 'Z' then return to_string (resize (sfixed(value), 0, value'low)); else return to_string (resize (value, 0, value'low)); end if; elsif value'low >= 0 then if Is_X (value(value'low)) then subval := (others => value(value'low)); subval (value'range) := value; return to_string(subval); else return to_string (resize (value, value'high, -1)); end if; else sindx := 1; for i in value'high downto value'low loop if i = -1 then s(sindx) := '.'; sindx := sindx + 1; end if; s(sindx) := MVL9_to_char(STD_ULOGIC(value(i))); sindx := sindx + 1; end loop; return s; end if; end if; end function to_string; function to_string (value : UNRESOLVED_sfixed) return STRING is variable s : STRING(1 to value'length + 1) := (others => ' '); variable subval : UNRESOLVED_sfixed (value'high downto -1); variable sindx : INTEGER; begin if value'length < 1 then return NUS; else if value'high < 0 then return to_string (resize (value, 0, value'low)); elsif value'low >= 0 then if Is_X (value(value'low)) then subval := (others => value(value'low)); subval (value'range) := value; return to_string(subval); else return to_string (resize (value, value'high, -1)); end if; else sindx := 1; for i in value'high downto value'low loop if i = -1 then s(sindx) := '.'; sindx := sindx + 1; end if; s(sindx) := MVL9_to_char(STD_ULOGIC(value(i))); sindx := sindx + 1; end loop; return s; end if; end if; end function to_string; function to_ostring (value : UNRESOLVED_ufixed) return STRING is constant lne : INTEGER := (-VALUE'low+2)/3; variable subval : UNRESOLVED_ufixed (value'high downto -3); variable lpad : STD_ULOGIC_VECTOR (0 to (lne3 + VALUE'low) -1); variable slv : STD_ULOGIC_VECTOR (value'length-1 downto 0); begin if value'length < 1 then return NUS; else if value'high < 0 then if value(value'high) = 'Z' then return to_ostring (resize (sfixed(value), 2, value'low)); else return to_ostring (resize (value, 2, value'low)); end if; elsif value'low >= 0 then if Is_X (value(value'low)) then subval := (others => value(value'low)); subval (value'range) := value; return to_ostring(subval); else return to_ostring (resize (value, value'high, -3)); end if; else slv := to_sulv (value); if Is_X (value (value'low)) then lpad := (others => value (value'low)); else lpad := (others => '0'); end if; return to_ostring(slv(slv'high downto slv'high-VALUE'high)) & "." & to_ostring(slv(slv'high-VALUE'high-1 downto 0) & lpad); end if; end if; end function to_ostring; function to_hstring (value : UNRESOLVED_ufixed) return STRING is constant lne : INTEGER := (-VALUE'low+3)/4; variable subval : UNRESOLVED_ufixed (value'high downto -4); variable lpad : STD_ULOGIC_VECTOR (0 to (lne4 + VALUE'low) -1); variable slv : STD_ULOGIC_VECTOR (value'length-1 downto 0); begin if value'length < 1 then return NUS; else if value'high < 0 then if value(value'high) = 'Z' then return to_hstring (resize (sfixed(value), 3, value'low)); else return to_hstring (resize (value, 3, value'low)); end if; elsif value'low >= 0 then if Is_X (value(value'low)) then subval := (others => value(value'low)); subval (value'range) := value; return to_hstring(subval); else return to_hstring (resize (value, value'high, -4)); end if; else slv := to_sulv (value); if Is_X (value (value'low)) then lpad := (others => value(value'low)); else lpad := (others => '0'); end if; return to_hstring(slv(slv'high downto slv'high-VALUE'high)) & "." & to_hstring(slv(slv'high-VALUE'high-1 downto 0)&lpad); end if; end if; end function to_hstring; function to_ostring (value : UNRESOLVED_sfixed) return STRING is constant ne : INTEGER := ((value'high+1)+2)/3; variable pad : STD_ULOGIC_VECTOR(0 to (ne3 - (value'high+1)) - 1); constant lne : INTEGER := (-VALUE'low+2)/3; variable subval : UNRESOLVED_sfixed (value'high downto -3); variable lpad : STD_ULOGIC_VECTOR (0 to (lne3 + VALUE'low) -1); variable slv : STD_ULOGIC_VECTOR (VALUE'high - VALUE'low downto 0); begin if value'length < 1 then return NUS; else if value'high < 0 then return to_ostring (resize (value, 2, value'low)); elsif value'low >= 0 then if Is_X (value(value'low)) then subval := (others => value(value'low)); subval (value'range) := value; return to_ostring(subval); else return to_ostring (resize (value, value'high, -3)); end if; else pad := (others => value(value'high)); slv := to_sulv (value); if Is_X (value (value'low)) then lpad := (others => value(value'low)); else lpad := (others => '0'); end if; return to_ostring(pad & slv(slv'high downto slv'high-VALUE'high)) & "." & to_ostring(slv(slv'high-VALUE'high-1 downto 0) & lpad); end if; end if; end function to_ostring; function to_hstring (value : UNRESOLVED_sfixed) return STRING is constant ne : INTEGER := ((value'high+1)+3)/4; variable pad : STD_ULOGIC_VECTOR(0 to (ne4 - (value'high+1)) - 1); constant lne : INTEGER := (-VALUE'low+3)/4; variable subval : UNRESOLVED_sfixed (value'high downto -4); variable lpad : STD_ULOGIC_VECTOR (0 to (lne4 + VALUE'low) -1); variable slv : STD_ULOGIC_VECTOR (value'length-1 downto 0); begin if value'length < 1 then return NUS; else if value'high < 0 then return to_hstring (resize (value, 3, value'low)); elsif value'low >= 0 then if Is_X (value(value'low)) then subval := (others => value(value'low)); subval (value'range) := value; return to_hstring(subval); else return to_hstring (resize (value, value'high, -4)); end if; else slv := to_sulv (value); pad := (others => value(value'high)); if Is_X (value (value'low)) then lpad := (others => value(value'low)); else lpad := (others => '0'); end if; return to_hstring(pad & slv(slv'high downto slv'high-VALUE'high)) & "." & to_hstring(slv(slv'high-VALUE'high-1 downto 0) & lpad); end if; end if; end function to_hstring; -- From string functions allow you to convert a string into a fixed -- point number. Example: -- signal uf1 : ufixed (3 downto -3); -- uf1 <= from_string ("0110.100", uf1'high, uf1'low); -- 6.5 -- The "." is optional in this syntax, however it exist and is -- in the wrong location an error is produced. Overflow will -- result in saturation. function from_string ( bstring : STRING; -- binary string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (left_index downto right_index); variable L : LINE; variable good : BOOLEAN; begin L := new STRING'(bstring); read (L, result, good); deallocate (L); assert (good) report fixed_pkg'instance_name & "from_string: Bad string "& bstring severity error; return result; end function from_string; -- Octal and hex conversions work as follows: -- uf1 <= from_hstring ("6.8", 3, -3); -- 6.5 (bottom zeros dropped) -- uf1 <= from_ostring ("06.4", 3, -3); -- 6.5 (top zeros dropped) function from_ostring ( ostring : STRING; -- Octal string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (left_index downto right_index); variable L : LINE; variable good : BOOLEAN; begin L := new STRING'(ostring); oread (L, result, good); deallocate (L); assert (good) report fixed_pkg'instance_name & "from_ostring: Bad string "& ostring severity error; return result; end function from_ostring; function from_hstring ( hstring : STRING; -- hex string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed is variable result : UNRESOLVED_ufixed (left_index downto right_index); variable L : LINE; variable good : BOOLEAN; begin L := new STRING'(hstring); hread (L, result, good); deallocate (L); assert (good) report fixed_pkg'instance_name & "from_hstring: Bad string "& hstring severity error; return result; end function from_hstring; function from_string ( bstring : STRING; -- binary string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (left_index downto right_index); variable L : LINE; variable good : BOOLEAN; begin L := new STRING'(bstring); read (L, result, good); deallocate (L); assert (good) report fixed_pkg'instance_name & "from_string: Bad string "& bstring severity error; return result; end function from_string; function from_ostring ( ostring : STRING; -- Octal string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (left_index downto right_index); variable L : LINE; variable good : BOOLEAN; begin L := new STRING'(ostring); oread (L, result, good); deallocate (L); assert (good) report fixed_pkg'instance_name & "from_ostring: Bad string "& ostring severity error; return result; end function from_ostring; function from_hstring ( hstring : STRING; -- hex string constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed is variable result : UNRESOLVED_sfixed (left_index downto right_index); variable L : LINE; variable good : BOOLEAN; begin L := new STRING'(hstring); hread (L, result, good); deallocate (L); assert (good) report fixed_pkg'instance_name & "from_hstring: Bad string "& hstring severity error; return result; end function from_hstring; -- Same as above, "size_res" is used for it's range only. function from_string ( bstring : STRING; -- binary string size_res : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is begin return from_string (bstring, size_res'high, size_res'low); end function from_string; function from_ostring ( ostring : STRING; -- Octal string size_res : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is begin return from_ostring (ostring, size_res'high, size_res'low); end function from_ostring; function from_hstring ( hstring : STRING; -- hex string size_res : UNRESOLVED_ufixed) return UNRESOLVED_ufixed is begin return from_hstring(hstring, size_res'high, size_res'low); end function from_hstring; function from_string ( bstring : STRING; -- binary string size_res : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is begin return from_string (bstring, size_res'high, size_res'low); end function from_string; function from_ostring ( ostring : STRING; -- Octal string size_res : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is begin return from_ostring (ostring, size_res'high, size_res'low); end function from_ostring; function from_hstring ( hstring : STRING; -- hex string size_res : UNRESOLVED_sfixed) return UNRESOLVED_sfixed is begin return from_hstring (hstring, size_res'high, size_res'low); end function from_hstring; -- purpose: Calculate the string boundaries procedure calculate_string_boundry ( arg : in STRING; -- input string left_index : out INTEGER; -- left right_index : out INTEGER) is -- right -- examples "10001.111" would return +4, -3 -- "07X.44" would return +2, -2 (then the octal routine would multiply) -- "A_B_._C" would return +1, -1 (then the hex routine would multiply) alias xarg : STRING (arg'length downto 1) is arg; -- make it downto range variable l, r : INTEGER; -- internal indexes variable founddot : BOOLEAN := false; begin if arg'length > 0 then l := xarg'high - 1; r := 0; for i in xarg'range loop if xarg(i) = '_' then if r = 0 then l := l - 1; else r := r + 1; end if; elsif xarg(i) = ' ' or xarg(i) = NBSP or xarg(i) = HT then report fixed_pkg'instance_name & "Found a space in the input STRING " & xarg severity error; elsif xarg(i) = '.' then if founddot then report fixed_pkg'instance_name & "Found two binary points in input string " & xarg severity error; else l := l - i; r := -i + 1; founddot := true; end if; end if; end loop; left_index := l; right_index := r; else left_index := 0; right_index := 0; end if; end procedure calculate_string_boundry; -- Direct conversion functions. Example: -- signal uf1 : ufixed (3 downto -3); -- uf1 <= from_string ("0110.100"); -- 6.5 -- In this case the "." is not optional, and the size of -- the output must match exactly. function from_string ( bstring : STRING) -- binary string return UNRESOLVED_ufixed is variable left_index, right_index : INTEGER; begin calculate_string_boundry (bstring, left_index, right_index); return from_string (bstring, left_index, right_index); end function from_string; -- Direct octal and hex conversion functions. In this case -- the string lengths must match. Example: -- signal sf1 := sfixed (5 downto -3); -- sf1 <= from_ostring ("71.4") -- -6.5 function from_ostring ( ostring : STRING) -- Octal string return UNRESOLVED_ufixed is variable left_index, right_index : INTEGER; begin calculate_string_boundry (ostring, left_index, right_index); return from_ostring (ostring, ((left_index+1)3)-1, right_index3); end function from_ostring; function from_hstring ( hstring : STRING) -- hex string return UNRESOLVED_ufixed is variable left_index, right_index : INTEGER; begin calculate_string_boundry (hstring, left_index, right_index); return from_hstring (hstring, ((left_index+1)4)-1, right_index4); end function from_hstring; function from_string ( bstring : STRING) -- binary string return UNRESOLVED_sfixed is variable left_index, right_index : INTEGER; begin calculate_string_boundry (bstring, left_index, right_index); return from_string (bstring, left_index, right_index); end function from_string; function from_ostring ( ostring : STRING) -- Octal string return UNRESOLVED_sfixed is variable left_index, right_index : INTEGER; begin calculate_string_boundry (ostring, left_index, right_index); return from_ostring (ostring, ((left_index+1)3)-1, right_index3); end function from_ostring; function from_hstring ( hstring : STRING) -- hex string return UNRESOLVED_sfixed is variable left_index, right_index : INTEGER; begin calculate_string_boundry (hstring, left_index, right_index); return from_hstring (hstring, ((left_index+1)4)-1, right_index*4); end function from_hstring; -- pragma synthesis_on -- rtl_synthesis on -- IN VHDL-2006 std_logic_vector is a subtype of std_ulogic_vector, so these -- extra functions are needed for compatability. function to_ufixed ( arg : STD_LOGIC_VECTOR; -- shifted vector constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_ufixed is begin return to_ufixed ( arg => to_stdulogicvector (arg), left_index => left_index, right_index => right_index); end function to_ufixed; function to_ufixed ( arg : STD_LOGIC_VECTOR; -- shifted vector size_res : UNRESOLVED_ufixed) -- for size only return UNRESOLVED_ufixed is begin return to_ufixed ( arg => to_stdulogicvector (arg), size_res => size_res); end function to_ufixed; function to_sfixed ( arg : STD_LOGIC_VECTOR; -- shifted vector constant left_index : INTEGER; constant right_index : INTEGER) return UNRESOLVED_sfixed is begin return to_sfixed ( arg => to_stdulogicvector (arg), left_index => left_index, right_index => right_index); end function to_sfixed; function to_sfixed ( arg : STD_LOGIC_VECTOR; -- shifted vector size_res : UNRESOLVED_sfixed) -- for size only return UNRESOLVED_sfixed is begin return to_sfixed ( arg => to_stdulogicvector (arg), size_res => size_res); end function to_sfixed; -- unsigned fixed point function to_UFix ( arg : STD_LOGIC_VECTOR; width : NATURAL; -- width of vector fraction : NATURAL) -- width of fraction return UNRESOLVED_ufixed is begin return to_UFix ( arg => to_stdulogicvector (arg), width => width, fraction => fraction); end function to_UFix; -- signed fixed point function to_SFix ( arg : STD_LOGIC_VECTOR; width : NATURAL; -- width of vector fraction : NATURAL) -- width of fraction return UNRESOLVED_sfixed is begin return to_SFix ( arg => to_stdulogicvector (arg), width => width, fraction => fraction); end function to_SFix; end package body fixed_pkg;
-- ------------------------------------------------------------- -- -- Generated Configuration for ent_ab -- -- Generated -- by: wig -- on: Sat Mar 3 18:34:27 2007 -- cmd: /home/wig/work/MIX/mix_0.pl ../sigport.xls -- -- !!! Do not edit this file! Autogenerated by MIX !!! -- $Author: wig $ -- $Id: ent_ab-rtl-conf-c.vhd,v 1.1 2007/03/05 13:35:50 wig Exp $ -- $Date: 2007/03/05 13:35:50 $ -- $Log: ent_ab-rtl-conf-c.vhd,v $ -- Revision 1.1 2007/03/05 13:35:50 wig -- Reworked testcase sigport (changed case of generated files). -- -- -- Based on Mix Entity Template built into RCSfile: MixWriter.pm,v -- Id: MixWriter.pm,v 1.104 2007/03/03 17:24:06 wig Exp -- -- Generator: mix_0.pl Version: Revision: 1.47 , wilfried.gaensheimer@micronas.com -- (C) 2003,2005 Micronas GmbH -- -- -------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; -- No project specific VHDL libraries/conf -- -- Start of Generated Configuration ent_ab_RTL_CONF / ent_ab -- configuration ent_ab_RTL_CONF of ent_ab is for rtl -- Generated Configuration end for; end ent_ab_RTL_CONF; -- -- End of Generated Configuration ent_ab_RTL_CONF -- -- --!End of Configuration/ies -- --------------------------------------------------------------
--game.vhd library ieee; use ieee.std_logic_1164.all; use ieee.std_logic_arith.all; use ieee.std_logic_unsigned.all; use ieee.numeric_std.all; package game is procedure brick(signal hpos_scr,vpos_scr,xpos,ypos,ball_x,ball_y: in integer; signal draw:out std_logic;signal r,g,b:out std_logic_vector(3 downto 0); signal coll_x,coll_y:out std_logic;signal ball_x_vel:in std_logic;signal ball_y_vel:in std_logic); procedure bat(signal hpos_scr,vpos_scr, xpos,ypos:in integer; signal draw:out std_logic; signal r,g,b:out std_logic_vector(3 downto 0)); procedure ball(signal hpos_scr,vpos_scr, ball_x,ball_y:in integer; signal ball_row,ball_col:out integer); procedure gameover(signal hpos_scr,vpos_scr, gameover_x,gameover_y:in integer; signal gameover_row,gameover_col:out integer); procedure lives(signal hpos_scr,vpos_scr, lives_x,lives_y:in integer; signal lives_row,lives_col:out integer); procedure welmes(signal hpos_scr,vpos_scr,welmes_x,welmes_y:in integer; signal welmes_row,welmes_col:out integer); procedure winmes(signal hpos_scr,vpos_scr,winmes_x,winmes_y:in integer; signal winmes_row,winmes_col:out integer); procedure paused(signal hpos_scr,vpos_scr,paused_x,paused_y:in integer; signal paused_row,paused_col:out integer); end game; package body game is procedure brick(signal hpos_scr,vpos_scr, xpos,ypos,ball_x,ball_y: in integer; signal draw:out std_logic;signal r,g,b:out std_logic_vector(3 downto 0); signal coll_x,coll_y: out std_logic;signal ball_x_vel:in std_logic; signal ball_y_vel:in std_logic) is--Procedure to assign draw,rgb,collision signals of all bricks begin if(hpos_scr>=xpos and hpos_scr<xpos+40 and vpos_scr>=ypos and vpos_scr<ypos+20)then draw<='1'; r<="1001"; g<="0101"; b<="1101"; else draw<='0'; r<="0000"; g<="0000"; b<="0000"; end if; if(ypos=ball_y+12) then --top edge collision detection if(ball_x>=xpos-9 and ball_x<=xpos+36) then--for other top edge pixel collision change velocity in y alone coll_y<='1'; draw<='0'; r<="0000"; g<="0000"; b<="0000"; elsif(ball_x>=xpos-14 and ball_x<=xpos-10)then if(ball_y_vel='1' and ball_x_vel='1')then--if ball is coming down and moving right and colliding with top left corner pixel it should change velocity in both x & y coll_x<='1'; coll_y<='1'; elsif(ball_y_vel='1' and ball_x_vel='0')then--if ball is coming down and moving left and colliding with top left corner pixel it should change velocity in y alone coll_y<='1'; elsif(ball_y_vel='0' and ball_x_vel='1')then--if ball is going up and moving right and colliding with top left corner pixel it should change velocity in x alone coll_x<='1'; else null; end if; draw<='0'; r<="0000"; g<="0000"; b<="0000"; elsif(ball_x>=xpos+37 and ball_x<=xpos+41)then if(ball_y_vel='1' and ball_x_vel='0')then--if ball is coming down and moving left and colliding with top right corner pixel it should change velocity in both x & y coll_x<='1'; coll_y<='1'; elsif(ball_y_vel='1' and ball_x_vel='1')then--if ball is coming down and moving right and colliding with top right corner pixel it should change velocity in y alone coll_y<='1'; elsif(ball_y_vel='0' and ball_x_vel='0')then--if ball is going up and moving left and colliding with top right corner pixel it should change velocity in x alone coll_x<='1'; else null; end if; draw<='0'; r<="0000"; g<="0000"; b<="0000"; else null; end if; else null; end if; if(ypos+19=ball_y) then --bottom edge collision detection if(ball_x>=xpos-9 and ball_x<=xpos+36) then--for other bottom edge pixel collision change velocity in y alone coll_y<='1'; draw<='0'; r<="0000"; g<="0000"; b<="0000"; elsif(ball_x>=xpos-14 and ball_x<=xpos-10)then if(ball_y_vel='0' and ball_x_vel='1')then--if ball is going up and moving right and colliding with bottom left corner pixel it should change velocity in both x & y coll_x<='1'; coll_y<='1'; elsif(ball_y_vel='0' and ball_x_vel='0')then--if ball is going up and moving left and colliding with bottom left corner pixel it should change velocity in y alone coll_y<='1'; elsif(ball_y_vel='1' and ball_x_vel='1')then--if ball is coming down and moving right and colliding with bottom left corner pixel it should change velocity in x alone coll_x<='1'; else null; end if; draw<='0'; r<="0000"; g<="0000"; b<="0000"; elsif(ball_x>=xpos+37 and ball_x<=xpos+41)then if(ball_y_vel='0' and ball_x_vel='0')then--if ball is going up and moving left and colliding with bottom right corner pixel it should change velocity in both x & y coll_x<='1'; coll_y<='1'; elsif(ball_y_vel='0' and ball_x_vel='1')then--if ball is going up and moving right and colliding with bottom right corner pixel it should change velocity in y alone coll_y<='1'; elsif(ball_y_vel='1' and ball_x_vel='0')then--if ball is coming down and moving left and colliding with bottom right corner pixel it should change velocity in x alone coll_x<='1'; else null; end if; draw<='0'; r<="0000"; g<="0000"; b<="0000"; else null; end if; else null; end if; if(ball_x>=xpos-15 and ball_x<=xpos-11) then --left edge collision detection if(ball_y>=ypos-9 and ball_y<=ypos+16) then--for other left edge pixel collision change velocity in x alone coll_x<='1'; draw<='0'; r<="0000"; g<="0000"; b<="0000"; elsif(ball_y>=ypos-11 and ball_y<=ypos-10)then if(ball_y_vel='0' and ball_x_vel='1')then--if ball is going up and moving right and colliding with left top corner pixel it should change velocity in x alone coll_x<='1'; elsif(ball_y_vel='1' and ball_x_vel='1')then--if ball is coming down and moving right and colliding with left top corner pixel it should change velocity in both x & y coll_x<='1'; coll_y<='1'; else null; end if; draw<='0'; r<="0000"; g<="0000"; b<="0000"; elsif(ball_y>=ypos+17 and ball_y<=ypos+18)then if(ball_y_vel='0' and ball_x_vel='1')then--if ball is going up and moving right and colliding with left bottom corner pixel it should change velocity in both x & y coll_x<='1'; coll_y<='1'; elsif(ball_y_vel='1' and ball_x_vel='1')then--if ball is coming down and moving right and colliding with left bottom corner pixel it should change velocity in x alone coll_x<='1'; else null; end if; draw<='0'; r<="0000"; g<="0000"; b<="0000"; else null; end if; else null; end if; if(ball_x>=xpos+37 and ball_x<=xpos+41) then --right edge collision detection if(ball_y>=ypos-9 and ball_y<=ypos+16) then--for other right edge pixel collision change velocity in x alone coll_x<='1'; draw<='0'; r<="0000"; g<="0000"; b<="0000"; elsif(ball_y>=ypos-11 and ball_y<=ypos-10)then if(ball_y_vel='1' and ball_x_vel='0')then--if ball is coming down and moving left and colliding with right top corner pixel it should change velocity in both x & y coll_x<='1'; coll_y<='1'; elsif(ball_y_vel='0' and ball_x_vel='0')then--if ball is going up and moving left and colliding with right top corner pixel it should change velocity in x alone coll_x<='1'; else null; end if; draw<='0'; r<="0000"; g<="0000"; b<="0000"; elsif(ball_y>=ypos+17 and ball_y<=ypos+18)then if(ball_y_vel='1' and ball_x_vel='0')then--if ball is coming down and moving left and colliding with right bottom corner pixel it should change velocity in x alone coll_x<='1'; elsif(ball_y_vel='0' and ball_x_vel='0')then--if ball is going up and moving left and colliding with right bottom corner pixel it should change velocity in both x & y coll_x<='1'; coll_y<='1'; else null; end if; draw<='0'; r<="0000"; g<="0000"; b<="0000"; else null; end if; else null; end if; end brick; procedure bat(signal hpos_scr,vpos_scr, xpos,ypos:in integer; signal draw:out std_logic; signal r,g,b:out std_logic_vector(3 downto 0)) is--Procedure to assign draw,rgb signals of the bat begin if(hpos_scr>=xpos and hpos_scr<xpos+50 and vpos_scr>=ypos and vpos_scr<ypos+4)then draw<='1'; r<="1111"; g<="1111"; b<="1111"; else draw<='0'; r<="0000"; g<="0000"; b<="0000"; end if; end bat; procedure ball(signal hpos_scr,vpos_scr, ball_x,ball_y:in integer; signal ball_row,ball_col:out integer) is--Procedure to map current pixel location to BALL_ROM's row/col begin if((ball_x<=hpos_scr) and (hpos_scr<ball_x+13) and (ball_y<=vpos_scr) and (vpos_scr<ball_y+13)) then ball_row <= vpos_scr - ball_y; ball_col <= hpos_scr - ball_x; else null; end if; end ball; procedure gameover(signal hpos_scr,vpos_scr,gameover_x,gameover_y:in integer; signal gameover_row,gameover_col:out integer) is--Procedure to map current pixel location to GAMEOVER_ROM's row/col begin if((gameover_x<=hpos_scr) and (hpos_scr<gameover_x+472) and (gameover_y<=vpos_scr) and (vpos_scr<gameover_y+90)) then gameover_row <= vpos_scr - gameover_y; gameover_col <= hpos_scr - gameover_x; else null; end if; end gameover; procedure lives(signal hpos_scr,vpos_scr,lives_x,lives_y:in integer; signal lives_row,lives_col:out integer) is--Procedure to map current pixel location to LIVES_ROM's row/col begin if((lives_x<=hpos_scr) and (hpos_scr<lives_x+92) and (lives_y<=vpos_scr) and (vpos_scr<lives_y+25)) then lives_row <= vpos_scr - lives_y; lives_col <= hpos_scr - lives_x; else null; end if; end lives; procedure welmes(signal hpos_scr,vpos_scr,welmes_x,welmes_y:in integer; signal welmes_row,welmes_col:out integer) is--Procedure to map current pixel location to WELCOME_ROM's row/col begin if((welmes_x<=hpos_scr) and (hpos_scr<welmes_x+496) and (welmes_y<=vpos_scr) and (vpos_scr<welmes_y+390)) then welmes_row <= vpos_scr - welmes_y; welmes_col <= hpos_scr - welmes_x; else null; end if; end welmes; procedure winmes(signal hpos_scr,vpos_scr,winmes_x,winmes_y:in integer; signal winmes_row,winmes_col:out integer) is--Procedure to map current pixel location to WIN_ROM's row/col begin if((winmes_x<=hpos_scr) and (hpos_scr<winmes_x+460) and (winmes_y<=vpos_scr) and (vpos_scr<winmes_y+130)) then winmes_row <= vpos_scr - winmes_y; winmes_col <= hpos_scr - winmes_x; else null; end if; end winmes; procedure paused(signal hpos_scr,vpos_scr,paused_x,paused_y:in integer; signal paused_row,paused_col:out integer) is--Procedure to map current pixel location to PAUSE_ROM's row/col begin if((paused_x<=hpos_scr) and (hpos_scr<paused_x+384) and (paused_y<=vpos_scr) and (vpos_scr<paused_y+76)) then paused_row <= vpos_scr - paused_y; paused_col <= hpos_scr - paused_x; else null; end if; end paused; end game;
-- ------------------------------------------------------------- -- -- Entity Declaration for inst_shadow_ok_9_e -- -- Generated -- by: wig -- on: Tue Nov 21 12:18:38 2006 -- cmd: /cygdrive/h/work/eclipse/MIX/mix_0.pl ../macro.xls -- -- !!! Do not edit this file! Autogenerated by MIX !!! -- $Author: wig $ -- $Id: inst_shadow_ok_9_e-e.vhd,v 1.1 2006/11/22 10:40:09 wig Exp $ -- $Date: 2006/11/22 10:40:09 $ -- $Log: inst_shadow_ok_9_e-e.vhd,v $ -- Revision 1.1 2006/11/22 10:40:09 wig -- Detect missing directories and flag that as error. -- -- -- Based on Mix Entity Template built into RCSfile: MixWriter.pm,v -- Id: MixWriter.pm,v 1.99 2006/11/02 15:37:48 wig Exp -- -- Generator: mix_0.pl Version: Revision: 1.47 , wilfried.gaensheimer@micronas.com -- (C) 2003,2005 Micronas GmbH -- -- -------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; -- No project specific VHDL libraries/enty -- -- -- Start of Generated Entity inst_shadow_ok_9_e -- entity inst_shadow_ok_9_e is -- Generics: -- No Generated Generics for Entity inst_shadow_ok_9_e -- Generated Port Declaration: -- No Generated Port for Entity inst_shadow_ok_9_e end inst_shadow_ok_9_e; -- -- End of Generated Entity inst_shadow_ok_9_e -- -- --!End of Entity/ies -- --------------------------------------------------------------
-------------------------------------------------------------------------------- --! @file Synchronizer.vhd --! @brief Synchronize async signal --! @author Takehiro Shiozaki --! @date 2013-10-28 -------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; library UNISIM; use UNISIM.vcomponents.all; entity Synchronizer is port( CLK : in std_logic; RESET : in std_logic; DIN : in std_logic; DOUT : out std_logic ); end Synchronizer; architecture RTL of Synchronizer is signal temp : std_logic; attribute dont_touch : string; attribute dont_touch of DoubleFFSynchronizerFF1 : label is "true"; attribute dont_touch of DoubleFFSynchronizerFF2 : label is "true"; begin DoubleFFSynchronizerFF1 : FDC generic map( INIT => '0' ) port map( Q => temp, C => CLK, CLR => RESET, D => DIN ); DoubleFFSynchronizerFF2 : FDC generic map( INIT => '0' ) port map( Q => DOUT, C => CLK, CLR => RESET, D => temp ); end RTL;
---------------------------------------------------------------------------------- -- Company: NTU Athens - BNL -- Engineer: Christos Bakalis (christos.bakalis@cern.ch) -- -- Copyright Notice/Copying Permission: -- Copyright 2017 Christos Bakalis -- -- This file is part of NTUA-BNL_VMM_firmware. -- -- NTUA-BNL_VMM_firmware is free software: you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation, either version 3 of the License, or -- (at your option) any later version. -- -- NTUA-BNL_VMM_firmware is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- -- You should have received a copy of the GNU General Public License -- along with NTUA-BNL_VMM_firmware. If not, see <http://www.gnu.org/licenses/>. -- -- Create Date: 26.03.2017 18:22:01 -- Design Name: -- Module Name: cktp_counter - RTL -- Project Name: -- Target Devices: -- Tool Versions: -- Description: State machine that counts CKTP pulses sent and stops the CKTP -- generation depending on a maximum number of pulses that must be sent. -- -- Dependencies: -- -- Changelog: -- ---------------------------------------------------------------------------------- library IEEE; use IEEE.STD_LOGIC_1164.ALL; use IEEE.NUMERIC_STD.all; entity cktp_counter is Port( clk_160 : in std_logic; cktp_start : in std_logic; cktp_pulse : in std_logic; cktp_max : in std_logic_vector(15 downto 0); cktp_inhibit : out std_logic ); end cktp_counter; architecture RTL of cktp_counter is -- state machine signals type cktp_cnt_state_type is (ST_IDLE, ST_WAIT_FOR_LOW, ST_CNT_CHECK); signal cktp_cnt_state : cktp_cnt_state_type := ST_IDLE; signal fsm_enable : std_logic := '0'; signal fsm_enable_i : std_logic := '0'; signal fsm_enable_s : std_logic := '0'; signal cktp_inhibit_fsm : std_logic := '0'; signal inhibit_async_i : std_logic := '0'; signal inhibit_async_s : std_logic := '0'; signal inhibit_async : std_logic := '0'; signal cktp_cnt : unsigned(15 downto 0) := (others => '0'); attribute ASYNC_REG : string; attribute ASYNC_REG of fsm_enable_i : signal is "TRUE"; attribute ASYNC_REG of fsm_enable_s : signal is "TRUE"; attribute ASYNC_REG of inhibit_async_i : signal is "TRUE"; attribute ASYNC_REG of inhibit_async_s : signal is "TRUE"; begin -- transmit CKTPs indefinitely if cktp_max is FFFF, inhibit CKTPs if 0000 FSM_enble_proc: process(cktp_max, cktp_start) begin if(cktp_start = '1')then case cktp_max is when x"FFFF" => fsm_enable <= '0'; inhibit_async <= '0'; when x"0000" => fsm_enable <= '0'; inhibit_async <= '1'; when others => fsm_enable <= '1'; inhibit_async <= '0'; end case; else fsm_enable <= '0'; inhibit_async <= '1'; end if; end process; -- sync the enable signal SynProc: process(clk_160) begin if(rising_edge(clk_160))then fsm_enable_i <= fsm_enable; fsm_enable_s <= fsm_enable_i; inhibit_async_i <= inhibit_async; inhibit_async_s <= inhibit_async_i; end if; end process; -- state machine that counts CKTP pulses and asserts the inhibit flag if needed FSM_CKTP_cnt_proc: process(clk_160) begin if(rising_edge(clk_160))then if(fsm_enable_s = '1')then case cktp_cnt_state is -- wait for pulse when ST_IDLE => if(cktp_pulse = '1')then cktp_cnt_state <= ST_WAIT_FOR_LOW; else cktp_cnt_state <= ST_IDLE; end if; -- wait for pulse to go low, increment counter and check when ST_WAIT_FOR_LOW => if(cktp_pulse = '0')then cktp_cnt_state <= ST_CNT_CHECK; cktp_cnt <= cktp_cnt + 1; else cktp_cnt_state <= ST_WAIT_FOR_LOW; end if; -- check the counter and assert flag+stay here if limit is reached, and -- wait to be rest by configuration when ST_CNT_CHECK => if(cktp_cnt <= unsigned(cktp_max))then cktp_cnt_state <= ST_IDLE; else cktp_cnt_state <= ST_CNT_CHECK; cktp_inhibit_fsm <= '1'; end if; when others => cktp_cnt_state <= ST_IDLE; cktp_cnt <= (others => '0'); cktp_inhibit_fsm <= '0'; end case; else cktp_cnt_state <= ST_IDLE; cktp_cnt <= (others => '0'); cktp_inhibit_fsm <= '0'; end if; end if; end process; cktp_inhibit <= cktp_inhibit_fsm or inhibit_async_s; end RTL;
--------------------------------------------------------------------------- -- (c) 2013 mark watson -- I am happy for anyone to use this for non-commercial use. -- If my vhdl files are used commercially or otherwise sold, -- please contact me for explicit permission at scrameta (gmail). -- This applies for source and binary form and derived works. --------------------------------------------------------------------------- LIBRARY ieee; USE ieee.std_logic_1164.all; use ieee.numeric_std.all; ENTITY syncreset_enable_divider IS generic(COUNT : natural := 1; RESETCOUNT : natural := 0); PORT ( CLK : IN STD_LOGIC; SYNCRESET : in std_logic; RESET_N : IN STD_LOGIC; ENABLE_IN : IN STD_LOGIC; ENABLE_OUT : OUT STD_LOGIC ); END syncreset_enable_divider; ARCHITECTURE vhdl OF syncreset_enable_divider IS function log2c(n : integer) return integer is variable m,p : integer; begin m := 0; p := 1; while p<n loop m:=m+1; p:=p*2; end loop; return m; end log2c; constant WIDTH : natural := log2c(COUNT); signal count_reg : std_logic_vector(WIDTH-1 downto 0); -- width should depend on count signal count_next : std_logic_vector(WIDTH-1 downto 0); signal enabled_out_next : std_logic; signal enabled_out_reg : std_logic; BEGIN -- register process(clk,reset_n) begin if (reset_n = '0') then count_reg <= (others=>'0'); enabled_out_reg <= '0'; elsif (clk'event and clk='1') then count_reg <= count_next; enabled_out_reg <= enabled_out_next; end if; end process; -- Maintain a count in order to calculate a clock circa 1.79 (in this case 25/14) -> 64KHz -> /28 process(count_reg,enable_in,enabled_out_reg,syncreset) begin count_next <= count_reg; enabled_out_next <= enabled_out_reg; if (enable_in = '1') then count_next <= std_logic_vector(unsigned(count_reg) + 1); enabled_out_next <= '0'; if (unsigned(count_reg) = to_unsigned(COUNT-1,WIDTH)) then count_next <= std_logic_vector(to_unsigned(0,WIDTH)); enabled_out_next <= '1'; end if; end if; if (syncreset='1') then count_next <= std_logic_vector(to_unsigned(resetcount,width)); end if; end process; -- output enable_out <= enabled_out_reg and enable_in; END vhdl;
library ieee; use ieee.std_logic_1164.all ; entity foo is port ( addr : in std_logic_vector(3 downto 0); data_in : out std_logic_vector(31 downto 0); data_out : out std_logic_vector(31 downto 0) ); end entity foo; architecture simple of foo is type mem_type is array (5 downto 0) of std_logic_vector(31 downto 0); signal mem : mem_type ; begin -- architecture simple foop: process (all) is begin -- process foop mem[address]<=data_in; -- The above code is erronous but instead of flaging an error the compiler -- crashes -- mem(address)<=data_in; end process foop; end architecture simple;
------------------------------------------------------------------------------- -- $Id: dma_sg_sim.vhd,v 1.8 2003/11/04 20:11:34 ostlerf Exp $ ------------------------------------------------------------------------------- -- dma_sg sim architecture (DMA and scatter gather) ------------------------------------------------------------------------------- -- -- ************************** -- Copyright Xilinx, Inc. -- All rights reserved. -- ************************** -- ------------------------------------------------------------------------------- -- Filename: dma_sg_sim.vhd -- -- Description: See file dma_sg.vhd for a description of this function. -- ------------------------------------------------------------------------------- -- Structure: -- -- dma_sg_sim.vhd -- \| -- \|- dma_sg.vhd -- \| -- \|- dma_sg_pkg.vhd -- \| -- \|- dma_sg_cmp.vhd -- \| -- \|- ctrl_reg.vhd -- \| -- \|- ld_arith_reg.vhd -- \| -- \|- srl_fifo.vhd -- ------------------------------------------------------------------------------- -- Author: Farrell Ostler -- History: -- FLO 12/19/01 -- Header added -- -- FLO 07/17/02 -- ^^^^^^ -- Workaround for XST F.23 bug that affects dma_sg, -- e.g. "XGR_tmp <= dma_cs(cco)" -- ~~~~~~ -- -- FLO 10/22/02 -- ^^^^^^ -- Put a generate statement around the clock divider so that it -- is included only if there is a packet channel with interrupt -- coalescing enabled. -- ~~~~~~ -- -- FLO 01/10/03 -- ^^^^^^ -- Removed earlier XST workaround restriction that status fifo -- entries for packet channels had to be on either channel 0 or 1. -- -- FLO 01/30/03 -- ^^^^^^ -- Added constant DMA_DWIDTH = 32, then made values that depend on the -- fact that DMASG is a 32-bit device to depend on this constant. Most -- of these were previously depending on C_OPB_DWIDTH. But, we want to -- be able to have C_OPB_DWIDTH be 64 bits so that DMA data transfers -- and bursts work on 64-bit buses such as the PLB. -- -- Added constant BPBT_BITS and eliminated some places where BPST was -- assumed to be 4 and BPBT was assumed to be 32. -- ~~~~~~ -- -- FLO 01/31/03 -- ^^^^^^ -- Changed the Generation of DMA2Bus_MstBE so that it handles both -- 32-bit (DMA_DWIDTH) master operations that it performs relative -- to its own registers and DMA operations at the full Bus width, i.e., -- the width given by C_OPB_AWIDTH. -- -- Added assertions to check the validity of some of the assumptions -- upon which the implementation depends. -- ~~~~~~ -- -- FLO 02/01/03 -- ^^^^^^ -- Fixed generation of dma2bus_addr_sg and dma2ip_addr_sg, which were using -- BPST_BITS as a way of getting a constant 2. This constant is 2 only if -- C_OPB_DWIDTH is 32, so the problem appeared with the first attempt -- to use C_OPB_DWIDTH=64. -- ~~~~~~ -- -- FLO 02/02/03 -- ^^^^^^ -- Correction to generation of DMA2Bus_MstBE. -- More corrections of BPST_BITS being used where 2 should have been used. -- ~~~~~~ -- -- FLO 02/02/03 -- ^^^^^^ -- Added signal DMA2Bus_MstLoc2Loc. -- ~~~~~~ -- -- FLO 03/11/03 -- ^^^^^^ -- Changed constant DMA_TO_OPB_DWIDTH_FACTOR_BITS from type positive to natural. -- This was needed to have the C_OPB_DWIDTH = 32 case elaborate properly -- since the value of this constant is zero for this case. -- ~~~~~~ -- -- FLO 05/13/2003 -- ^^^^^^ -- Added instance of module burst_size_calc. This instance calculates the -- size for the next bus transaction based on the maximum transfers -- per burst, the Length remaining (and for Rx channels, the PLength -- remaining). This instance is in place but is not hooked up and used, yet. -- ~~~~~~ -- -- FLO 05/14/2003 -- ^^^^^^ -- The burst_size_calc instance is now integrated. -- This version does bursts of size 16 and does remainders as bursts -- of size 1 to 15. -- ~~~~~~ -- -- FLO 05/15/2003 -- ^^^^^^ -- The HW_SW_COMPATIBILITY component "letter" is rev'ed from a to b. -- The new C_DMA_SHORT_BURST_REMAINDER generic is passed to -- instance of burst_size_calc. -- TPB now comes from a generic (C_DMA_BURST_SIZE). -- Changed to the non-ripple-counter version of the packet-wait timebase -- divider. -- ~~~~~~ -- FLO 09/03/2003 -- ^^^^^^ -- Fixed a bug whereby if PWB=1, PWBR interrupts were generated even -- when UPC=0. Problem was that the ld_arith_reg that was used to -- implement the pw_timer has OP overriding LOAD. The fix was to -- switch to ld_arith_reg2, which allows the override order to be -- reversed. -- ~~~~~~ -- FLO 11/04/2003 -- ^^^^^^ -- - Addressed a slow signal propagation through dma2bus_mstnum by -- inserting a pipestage and adding state MSTNUM_PIPE that matches -- the pipe delay for the state machine. -- - Also, removed some comments now considered obsolete or of marginal value. -- ~~~~~~ ------------------------------------------------------------------------------- -- Naming Conventions: -- active low signals: "_n" -- clock signals: "clk", "clk_div#", "clk_#x" -- reset signals: "rst", "rst_n" -- generics: "C_" -- user defined types: "_TYPE" -- state machine next state: "_ns" -- state machine current state: "_cs" -- combinatorial signals: "_com" -- pipelined or register delay signals: "_d#" -- counter signals: "cnt" -- clock enable signals: "_ce" -- internal version of output port "_i" -- device pins: "_pin" -- ports: - Names begin with Uppercase -- processes: "_PROCESS" -- component instantiations: "<ENTITY_>I_<#\|FUNC> ------------------------------------------------------------------------------- --Possible enhancements -- (11) Error conditions that could be detected in a "debug" mode. -- (a) SGS=1 but not at end of Tx packet. -- (b) SGS=1 but not enough buffer space to finish current Rx packet. -- (c) Underflow or overflow of UPC. -- (d) Exactly one of SLOCAL, DLOCAL set. -- (e) Status value becomes available from the IP but there -- is not a corresponding address saved in the SRAddr FIFO to -- which to write it. -- (25) Handle the case where a Bus2IP_MstError or Bus2IP_MstTimeout -- is the response to a master operation (SG not yet covered). -- (27) Check that UPC, PCT, PWB are excluded when channel is not -- type 2 or 3 or interrupt coalescing is disabled for the channel. library ieee; use ieee.numeric_std.all; -- VisualHDL gives compile errors when using the explicitly named -- use clauses, below. --use ieee.numeric_std.UNSIGNED; --use ieee.numeric_std.TO_UNSIGNED --use ieee.numeric_std.TO_INTEGER; --use ieee.numeric_std."="; --use ieee.numeric_std."+"; --use ieee.numeric_std."-"; --use ieee.numeric_std."<"; --use ieee.numeric_std.RESIZE; library ipif_common_v1_00_d; use ipif_common_v1_00_d.dma_sg_cmp.all; use ipif_common_v1_00_d.dma_sg_pkg.ceil_log2; use ipif_common_v1_00_d.dma_sg_pkg.r_RSTMIR; use ipif_common_v1_00_d.dma_sg_pkg.r_DMACR; use ipif_common_v1_00_d.dma_sg_pkg.r_SA; use ipif_common_v1_00_d.dma_sg_pkg.r_DA; use ipif_common_v1_00_d.dma_sg_pkg.r_LENGTH; use ipif_common_v1_00_d.dma_sg_pkg.r_DMASR; use ipif_common_v1_00_d.dma_sg_pkg.r_BDA; use ipif_common_v1_00_d.dma_sg_pkg.r_SWCR; use ipif_common_v1_00_d.dma_sg_pkg.r_UPC; use ipif_common_v1_00_d.dma_sg_pkg.r_PCT; use ipif_common_v1_00_d.dma_sg_pkg.r_PWB; use ipif_common_v1_00_d.dma_sg_pkg.r_ISR; use ipif_common_v1_00_d.dma_sg_pkg.r_IER; use ipif_common_v1_00_d.dma_sg_pkg.r_PLENGTH; use ipif_common_v1_00_d.dma_sg_pkg.b_BSY; use ipif_common_v1_00_d.dma_sg_pkg.b_SINC; use ipif_common_v1_00_d.dma_sg_pkg.b_DINC; use ipif_common_v1_00_d.dma_sg_pkg.b_SLOCAL; use ipif_common_v1_00_d.dma_sg_pkg.b_DLOCAL; use ipif_common_v1_00_d.dma_sg_pkg.b_SGS; use ipif_common_v1_00_d.dma_sg_pkg.b_L_dmacr; use ipif_common_v1_00_d.dma_sg_pkg.b_SGE; use ipif_common_v1_00_d.dma_sg_pkg.b_DD; use ipif_common_v1_00_d.dma_sg_pkg.b_DE; use ipif_common_v1_00_d.dma_sg_pkg.b_PD; use ipif_common_v1_00_d.dma_sg_pkg.b_PCTR; use ipif_common_v1_00_d.dma_sg_pkg.b_PWBR; use ipif_common_v1_00_d.dma_sg_pkg.b_SGDA; use ipif_common_v1_00_d.dma_sg_pkg.b_SGEND; use ipif_common_v1_00_d.dma_sg_pkg.bo2sl; use ipif_common_v1_00_d.dma_sg_pkg.Div_Stages; use ipif_common_v1_00_d.dma_sg_pkg.UPCB; use ipif_common_v1_00_d.dma_sg_pkg.PWBB; library proc_common_v1_00_b; architecture sim of dma_sg is constant RESET_ACTIVE : std_logic := '1'; constant C_M : natural := C_IPIF_ABUS_WIDTH - 2; -- Bus2IP_Addr and DMA2IP_Addr are word addresses; -- the low-order two bits of the byte address -- are not included. -- ToDo, eventually, this should probably change so that -- they are byte addresses. constant MAJOR_VERSION : natural := 1; constant MINOR_VERSION : natural := 1; constant HW_SW_COMPATIBILITY_REVISION : natural := 1; constant LAST_CHAN : natural := C_DMA_CHAN_TYPE'length - 1; constant NUM_CHANS : natural := LAST_CHAN+1; constant NUM_CHAN_BITS : natural := ceil_log2(NUM_CHANS); -- There are NUM_CHANS channels, numbered 0 .. LAST_CHAN. constant RPB : natural := 4; -- Register-pitch bits = the number of bits -- needed to encode the word addresses -- of all registers (and reserved register -- addresses) for a channel. The number -- of registers and reserved addresses -- per channel is 2^RPB, so the -- word address of a register on one channel -- is separated from the word address of -- of the same register on the next higher -- channel by 2^RPB. constant BPST : natural := C_OPB_DWIDTH / 8; -- Bytes per single transfer on the bus. constant BPST_BITS : natural := ceil_log2(BPST); -- Number of bits needed to encode -- the range 0 to BPST-1. constant BPBT : natural := BPST TPB; -- Bytes per burst transfer on the bus. constant BPBT_BITS : natural := ceil_log2(BPBT); constant RIPPLE_PW_DIVIDER : boolean := false; constant DMA_DWIDTH : natural := 32; -- DMASG is a 32-bit device. -- Registers type DMACR_t is array (natural range <>) of std_logic_vector(b_SINC to b_L_dmacr); signal tmp_C_DMA_BASEADDR : std_logic_vector(0 to 63); -- XST workaround signal DMACR : DMACR_t(0 to LAST_CHAN); type UNSIGNED_t is array (natural range <>) of UNSIGNED(0 to DMA_DWIDTH-1); signal SA : UNSIGNED_t(0 to LAST_CHAN); signal DA : UNSIGNED_t(0 to LAST_CHAN); signal LENGTH : UNSIGNED_t(0 to LAST_CHAN); signal BDA : UNSIGNED_t(0 to LAST_CHAN); -- XGR_E33 type SWCR_t -- XGR_E33 is array (natural range <>) of std_logic_vector(b_SGE to b_SGE); -- XGR_E33 signal SWCR : SWCR_t(0 to LAST_CHAN); signal SWCR : std_logic_vector(0 to LAST_CHAN); type UPC_t is array (natural range <>) of UNSIGNED(DMA_DWIDTH-UPCB to DMA_DWIDTH-1); signal UPC : UPC_t(0 to LAST_CHAN); signal PCT : UPC_t(0 to LAST_CHAN); type PWB_t is array (natural range <>) of UNSIGNED(DMA_DWIDTH-PWBB to DMA_DWIDTH-1); signal PWB : PWB_t(0 to LAST_CHAN); -- Packet Wait Bound signal pw_timer : PWB_t(0 to LAST_CHAN); -- Timer used in generating -- PWBR interrupt. signal PLENGTH : UNSIGNED_t(0 to LAST_CHAN); signal LENGTH_cco : UNSIGNED(0 to DMA_DWIDTH-1); signal PLENGTH_cco : UNSIGNED(0 to DMA_DWIDTH-1); signal rx_cco : std_logic; -- Per-channel reset signal reset : std_logic_vector (0 to LAST_CHAN); signal prog_reset : std_logic_vector (0 to LAST_CHAN); -- Enables signal chan_num : natural; -- The channel addressed by Bus2IP_Addr. signal chan_sel : std_logic_vector (0 to LAST_CHAN); -- Decode of chan_num to one-hot. signal cco : natural range 0 to LAST_CHAN; -- The channel currently operating. signal cco_onehot : std_logic_vector (0 to LAST_CHAN); -- cco decoded to onehot. signal RSTMIR_sel : std_logic; signal DMACR_sel : std_logic; signal SA_sel : std_logic; signal DA_sel : std_logic; signal LENGTH_sel : std_logic; signal dmasr_sel : std_logic; signal BDA_sel : std_logic; signal SWCR_sel : std_logic; signal UPC_sel : std_logic; signal PCT_sel : std_logic; signal PWB_sel : std_logic; signal ISR_sel : std_logic; signal IER_sel : std_logic; signal PLENGTH_sel : std_logic; -- Read back register muxing signal ver_i : std_logic_vector(0 to DMA_DWIDTH-1); signal dcr_i : std_logic_vector(0 to DMA_DWIDTH-1); signal sa_i : std_logic_vector(0 to DMA_DWIDTH-1); signal da_i : std_logic_vector(0 to DMA_DWIDTH-1); signal lnt_i : std_logic_vector(0 to DMA_DWIDTH-1); signal dsr_i : std_logic_vector(0 to DMA_DWIDTH-1); signal bda_i : std_logic_vector(0 to DMA_DWIDTH-1); signal sge_i : std_logic_vector(0 to DMA_DWIDTH-1); signal upc_i : std_logic_vector(0 to DMA_DWIDTH-1); signal pct_i : std_logic_vector(0 to DMA_DWIDTH-1); signal pwb_i : std_logic_vector(0 to DMA_DWIDTH-1); signal isr_i : std_logic_vector(0 to DMA_DWIDTH-1); signal ier_i : std_logic_vector(0 to DMA_DWIDTH-1); signal ple_i : std_logic_vector(0 to DMA_DWIDTH-1); signal adj : UNSIGNED(0 to BPST_BITS); -- Amt to add or subtr when updating -- LENGTH and PLENGTH. signal LENGTH_ge_2BPST: std_logic; -- Used in calculating adj. signal PLENGTH_ge_2BPST: std_logic; -- Used in calculating adj. signal LENGTH_ge_BPBT : std_logic; -- Used for deciding burst transaction. signal PLENGTH_ge_BPBT : std_logic; -- Used for deciding burst transaction. --ToDo. dec_LENGTH, inc_SA and inc_DA can be combined into a common signal. signal dec_LENGTH : std_logic; signal inc_SA : std_logic; signal inc_DA : std_logic; signal dec_PLENGTH : std_logic; signal inc_PLENGTH : std_logic; signal clr_PLENGTH : std_logic; --Register bits and bit fields signal SINC : std_logic_vector(0 to LAST_CHAN); signal DINC : std_logic_vector(0 to LAST_CHAN); signal SLOCAL : std_logic_vector(0 to LAST_CHAN); signal DLOCAL : std_logic_vector(0 to LAST_CHAN); signal SGS : std_logic_vector(0 to LAST_CHAN); signal L_tx : std_logic_vector(0 to LAST_CHAN); signal dma_active : std_logic_vector(0 to LAST_CHAN); signal DBE : std_logic_vector(0 to LAST_CHAN); signal DBT : std_logic_vector(0 to LAST_CHAN); signal L_rx : std_logic_vector(0 to LAST_CHAN); signal L : std_logic_vector(0 to LAST_CHAN); signal SGE : std_logic_vector(0 to LAST_CHAN); signal DD : std_logic_vector(0 to LAST_CHAN); signal DE : std_logic_vector(0 to LAST_CHAN); signal PD : std_logic_vector(0 to LAST_CHAN); signal SGDA : std_logic_vector(0 to LAST_CHAN); signal SGEND : std_logic_vector(0 to LAST_CHAN); signal PCTR : std_logic_vector(0 to LAST_CHAN); signal PWBR : std_logic_vector(0 to LAST_CHAN); signal EDD : std_logic_vector(0 to LAST_CHAN); signal EDE : std_logic_vector(0 to LAST_CHAN); signal EPD : std_logic_vector(0 to LAST_CHAN); signal ESGDA : std_logic_vector(0 to LAST_CHAN); signal ESGEND : std_logic_vector(0 to LAST_CHAN); signal EPCTR : std_logic_vector(0 to LAST_CHAN); signal EPWBR : std_logic_vector(0 to LAST_CHAN); -- Other signals. signal sgGo : std_logic_vector(0 to LAST_CHAN); -- SG is enabled and not at end. signal dma2bus_wrack_i : std_logic; signal dma2bus_rdack_i : std_logic; -- is_idle: The DMA state machine is waiting to start processing the next -- BD or to start a simple DMA operation. signal is_idle : std_logic_vector(0 to LAST_CHAN); -- sg_active: SG has been enabled -- and started and has not yet reached the point where it is stopped -- or disabled and has cleanly finished the work that it started -- while active. Cleanly finishing its work includes, for SG packet -- Rx and SG packet Tx channels, that all packets that were started -- have finished and their status is recorded. signal sg_active : std_logic_vector(0 to LAST_CHAN); signal sg_active_d1 : std_logic_vector(0 to LAST_CHAN); signal dma_completing : std_logic; signal dma_starting : std_logic; signal set_DBE, set_DBT, set_L_rx : std_logic; signal rx, tx : std_logic_vector(0 to LAST_CHAN); -- rx(i) iff channel i is for Rx; tx(i) iff channel i is for Tx signal dest_is_a_fifo : std_logic; -- The DMA destination for cco is a fifo. signal dma_sel : std_logic; -- Master transaction is for dma i/o. signal dma_sel_d1: std_logic; signal sg_sel : std_logic; -- Master transaction is for sg BD i/o. signal pl_sel : std_logic; -- Master transaction is for PLENGTH i/o. signal sr_sel : std_logic; signal dma2bus_addr_dma : std_logic_vector(0 to C_OPB_AWIDTH-1); signal dma2ip_addr_dma : std_logic_vector(0 to C_M-1); signal dma2bus_mstwrreq_dma : std_logic; signal dma2bus_mstrdreq_dma : std_logic; signal dma2bus_mstnum_dma : std_logic_vector(DMA2Bus_MstNum'range); signal dma2bus_mstnum_dma_p1: std_logic_vector(DMA2Bus_MstNum'range); signal burst_cond_dma : std_logic; -- The condition on which the decision -- to burst is based. signal dma2bus_addr_sg : std_logic_vector(0 to C_OPB_AWIDTH-1); signal dma2ip_addr_sg : std_logic_vector(0 to C_M-1); signal dma2bus_mstwrreq_sg : std_logic; signal dma2bus_mstrdreq_sg : std_logic; signal dma2bus_mstwrreq_sr : std_logic; signal dma2bus_mstwrreq_pl : std_logic; signal first : std_logic_vector(0 to LAST_CHAN); -- Channel cco is on its first -- DMA operation of a packet. signal update_first : std_logic; -- Update first for the cco. signal no_bda_link : std_logic_vector(0 to LAST_CHAN); -- The BDA for the corresponding channel has been written while -- not sg_active and an operation under the next sg_active tenure has not -- started. signal load_length : std_logic_vector(0 to LAST_CHAN); signal load_bda : std_logic_vector(0 to LAST_CHAN); signal wr_SRAddrFIFO : std_logic_vector(0 to LAST_CHAN); signal rd_SRAddrFIFO : std_logic_vector(0 to LAST_CHAN); signal SRAddrFIFO_full : std_logic_vector(0 to LAST_CHAN); signal SRAddrFIFO_nonempty : std_logic_vector(0 to LAST_CHAN); type SRAddrFIFO_out_t is array (natural range <>) of std_logic_vector( 0 to C_OPB_AWIDTH-1 ); signal SRAddrFIFO_out : SRAddrFIFO_out_t(0 to LAST_CHAN); type sg_offset_t is array (natural range <>) of UNSIGNED(0 to RPB-1); signal sg_offset : sg_offset_t(0 to LAST_CHAN); signal reset_sg_offset : std_logic; signal inc_sg_offset : std_logic_vector(0 to LAST_CHAN); signal SRAddrFIFO_cco_hasroom : std_logic; signal DMA2Intr_Intr_i : std_logic_vector(0 to LAST_CHAN); signal pw_enable_pulse : std_logic; -- An enable pulse of one Bus2IP_Clk period at the frequency -- of required PWB update. signal pwb_eq_0 : std_logic_vector(0 to LAST_CHAN); signal pw_timer_eq_0 : std_logic_vector(0 to LAST_CHAN); signal upc_eq_0 : std_logic_vector(0 to LAST_CHAN); signal pwb_loaded : std_logic_vector(0 to LAST_CHAN); -- Bitwise "or" of an UNSIGNED value. -- Todo Replace calls by instances of or_muxcy? function or_UNSIGNED(s: UNSIGNED) return std_logic is variable ss : UNSIGNED(0 to s'length-1) := s; variable result: std_logic := '0'; begin for i in s'left to s'right loop result := result or s(i); end loop; return result; end or_UNSIGNED; -- Find the leftmost bit over the LENGTH registers of all channels. function min_length_left(nv: INTEGER_ARRAY_TYPE) return natural is variable largest_width : natural := 0; begin for i in 0 to LAST_CHAN loop if nv(i) > largest_width then largest_width := nv(i); end if; end loop; return DMA_DWIDTH - largest_width; end min_length_left; -- LENGTHS_LEFT gives the minimum left index over all channels. -- It corresponds to the widest LENGTH register required. constant LENGTHS_LEFT : natural := min_length_left(C_DMA_LENGTH_WIDTH); constant LENGTHS_WIDTH : natural := DMA_DWIDTH-LENGTHS_LEFT; function zero_vector(n: natural) return UNSIGNED is variable result : UNSIGNED(0 to n-1) := (others => '0'); begin return result; end zero_vector; function clock_divider_needed(C_DMA_CHAN_TYPE, C_INTR_COALESCE: INTEGER_ARRAY_TYPE) return boolean is begin for i in C_DMA_CHAN_TYPE'range loop if (C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3) and C_INTR_COALESCE(i) = 1 then return true; end if; end loop; return false; end clock_divider_needed; function to_string(n: natural) return STRING is variable s : string(20 downto 1); variable j : natural := 1; variable m : natural := n; type decimal_digit_to_char is array (natural range 0 to 9) of character; constant tab : decimal_digit_to_char := ('0', '1', '2', '3', '4', '5', '6', '7', '8', '9'); begin loop s(j) := tab(m mod 10); m := m / 10; exit when m = 0; j := j+1; end loop; return s(j downto 1); end to_string; function is_power_of_2(n: positive) return boolean is begin if n = 1 then return true; elsif n mod 2 = 1 then return false; else return is_power_of_2(n/2); end if; end is_power_of_2; begin --( architecture ---------------------------------------------------------------------------- -- Checks on parameters and interface signals. ---------------------------------------------------------------------------- assert Bus2IP_Data'length = DMA_DWIDTH report "Bus2IP_Data is a vector of size " & to_string(Bus2IP_Data'length) & ", which is not equal, as required, to " & to_string(DMA_DWIDTH) & "." severity failure; assert is_power_of_2(C_OPB_DWIDTH) report "C_OPB_DWIDTH is " & to_string(C_OPB_DWIDTH) & ", which is not a power of two, as required." severity failure; assert is_power_of_2(DMA_DWIDTH) report "DMA_DWIDTH is " & to_string(DMA_DWIDTH) & ", which is not a power of two, as required." severity failure; assert is_power_of_2(TPB) report "TPB is " & to_string(TPB) & ", which is not a power of two, as required." severity failure; assert C_OPB_DWIDTH >= DMA_DWIDTH report "C_OPB_DWIDTH with value " & to_string(C_OPB_DWIDTH) & " is not greater than or equal to DMA_DWIDTH with value " & to_string(DMA_DWIDTH) & ", as required." severity failure; ---------------------------------------------------------------------------- -- Verify that TPB (Transfers Per Burst) is consistent with the width of -- DMA2Bus_MstNum. ---------------------------------------------------------------------------- assert ceil_log2(TPB) <= DMA2Bus_MstNum'length report "In file opb_ipif_sim.vhd the width of DMA2Bus_MstNum of " & to_string(DMA2Bus_MstNum'length) & " is to small for the DMA burst size of " & to_string(TPB) & " ." severity failure; tmp_C_DMA_BASEADDR <= C_DMA_BASEADDR; -- ToDo, XST workaround --ToDo, handle byte enable signals (probably return error on non BE=1111) -- Assignment of register bits and bit fields SINC_GENERATE: for i in 0 to LAST_CHAN generate SINC(i) <= DMACR(i)(0); end generate; DINC_GENERATE: for i in 0 to LAST_CHAN generate DINC(i) <= DMACR(i)(1); end generate; SLOCAL_GENERATE: for i in 0 to LAST_CHAN generate SLOCAL(i) <= DMACR(i)(2); end generate; DLOCAL_GENERATE: for i in 0 to LAST_CHAN generate DLOCAL(i) <= DMACR(i)(3); end generate; SGS_GENERATE: for i in 0 to LAST_CHAN generate SGS(i) <= '1' when C_DMA_CHAN_TYPE(i) = 0 else DMACR(i)(4); end generate; SGE_GENERATE: for i in 0 to LAST_CHAN generate SGE(i) <= '0' when C_DMA_CHAN_TYPE(i) = 0 else SWCR(i); end generate; SGGO_GENERATE: for i in 0 to LAST_CHAN generate sgGo(i) <= (not SGS(i) and SGE(i)) or -- If pkt SG, then get to a packet boundary. ( not first(i) and bo2sl( C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 ) ); end generate; L_TX_GEN: for i in 0 to LAST_CHAN generate L_tx(i) <= '0' when (C_DMA_CHAN_TYPE(i) /= 2) else DMACR(i)(b_L_dmacr); end generate; --- Address decoding -- channel selects chan_num <= TO_INTEGER(UNSIGNED(Bus2IP_Addr( C_M-RPB-NUM_CHAN_BITS to C_M-RPB-1 ))); CHAN_SELECTION: process (chan_num) begin for i in 0 to LAST_CHAN loop chan_sel(i) <= bo2sl(chan_num = i); end loop; end process; CCO_ONEHOT_PROCESS: process (cco) begin for i in 0 to LAST_CHAN loop cco_onehot(i) <= bo2sl(cco = i); end loop; end process; RX_GEN: for i in 0 to LAST_CHAN generate rx(i) <= bo2sl(C_DMA_CHAN_TYPE(i) = 3) and (sgGo(i) or sg_active(i)); -- A sg rx packet channel can be used for simple DMA when it is not -- operating under SG. end generate; dest_is_a_fifo <= bo2sl( C_DMA_CHAN_TYPE(cco) = 2 and sg_active(cco) = '1'); TX_GEN: for i in 0 to LAST_CHAN generate tx(i) <= bo2sl(C_DMA_CHAN_TYPE(i) = 2) and (sgGo(i) or sg_active(i)); -- A sg tx packet channel can be used for simple DMA when it is not -- operating under SG. end generate; -- register selects RSTMIR_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_RSTMIR, RPB))); DMACR_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_DMACR, RPB))); SA_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_SA, RPB))); DA_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_DA, RPB))); LENGTH_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_LENGTH, RPB))); DMASR_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_DMASR, RPB))); BDA_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_BDA, RPB))); SWCR_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_SWCR, RPB))); UPC_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_UPC, RPB))); PCT_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_PCT, RPB))); PWB_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_PWB, RPB))); ISR_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_ISR, RPB))); IER_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_IER, RPB))); PLENGTH_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_PLENGTH, RPB))); --= end, Address decoding --- Various logic ---------------------------------------------------------------------------- -- These statements calculate adj. -- Either LENGTH or PLENGTH is the evaluated value, depending on whether the -- channel is rx. If the evaluated value is >= BPST, adj is BPST, which -- means that the low-order two bits may need to be masked. Otherwise, -- adj is the two low-order bits of the evaluated value. ---------------------------------------------------------------------------- LENGTH_ge_BPBT<= or_UNSIGNED( LENGTH_cco(LENGTHS_LEFT to DMA_DWIDTH - BPBT_BITS - 1)); PLENGTH_ge_BPBT<= or_UNSIGNED(PLENGTH_cco(LENGTHS_LEFT to DMA_DWIDTH - BPBT_BITS - 1)); LENGTH_ge_2BPST <= LENGTH_ge_BPBT or or_UNSIGNED( LENGTH_cco(DMA_DWIDTH - BPBT_BITS to DMA_DWIDTH - BPST_BITS - 2)); PLENGTH_ge_2BPST <= PLENGTH_ge_BPBT or or_UNSIGNED(PLENGTH_cco(DMA_DWIDTH - BPBT_BITS to DMA_DWIDTH - BPST_BITS - 2)); ---------------------------------------------------------------------------- -- The next process maintains the global adj value with -- respect to the cco. -- Notes: -- (1) Whenever adj is to be used to update channel n, cco=n must hold -- for both the previous and current cycles. -- (2) adj is sourced from FFs to reduce path time. -- (3) When dec_length is true, we are looking ahead by -- an extra BPST, which is the reason for the >= 2BPST check -- instead of a >= BPST check. -- (4) It is required that BPST be a power of 2. ---------------------------------------------------------------------------- ADJ_PROCESS: process (Bus2IP_Clk) variable len : UNSIGNED(0 to LENGTH_cco'length-1); variable len_ge_2BPST : std_logic; begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if rx(cco)='0' then len := LENGTH_cco; len_ge_2BPST := LENGTH_ge_2BPST; else len := PLENGTH_cco; len_ge_2BPST := PLENGTH_ge_2BPST; end if; adj(0) <= len_ge_2BPST or (not dec_length and len( DMA_DWIDTH - BPST_BITS - 1) ); for i in 1 to BPST_BITS LOOP -- The following expression zeroes non high-order adj bits -- when the next transfer will be BPST, otherwise -- adj becomes what is left to transfer, i.e. the corresponding -- adj bit is taken from the corresponding len bit. adj(i) <= not( len_ge_2BPST or (not dec_length and len( DMA_DWIDTH - BPST_BITS - 1) ) ) and len(DMA_DWIDTH - BPST_BITS + i - 1); end loop; end if; end process; DMA2Bus_Error <= '0'; DMA2Bus_Retry <= '0'; Bus2IP_DMA_Ack <= '0'; DMA2Bus_ToutSup <= '0'; DMA2INTR_GENERATE: for i in 0 to LAST_CHAN generate DMA2Intr_Intr_i(i) <= (DD(i) and EDD(i)) or (DE(i) and EDE(i)) or (PD(i) and EPD(i)) or (PCTR(i) and EPCTR(i)) or (PWBR(i) and EPWBR(i)) or (SGDA(i) and ESGDA(i)) or (SGEND(i) and ESGEND(i)); DMA2Intr_Intr(i) <= DMA2Intr_Intr_i(i); end generate; L_GEN: for i in 0 to LAST_CHAN generate L(i) <= ( (tx(i) and L_tx(i)) or (rx(i) and L_rx(i)) ); end generate; FIRST_PROCESS: process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then for i in 0 to LAST_CHAN loop if reset(i) = '1' then first(i) <= bo2sl(C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3); elsif update_first = '1' and cco = i then first(i) <= L(i); end if; end loop; end if; end process; SG_OFFSET_PROCESS: process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then for i in 0 to LAST_CHAN loop if (reset(i) or (reset_sg_offset and cco_onehot(i))) = '1' then sg_offset(i) <= (others => '0'); elsif inc_sg_offset(i) = '1' then sg_offset(i) <= sg_offset(i) + 1; end if; end loop; end if; end process; SRAddrFIFO_cco_hasroom <= '1' when (C_DMA_CHAN_TYPE(cco) = 2 or C_DMA_CHAN_TYPE(cco) = 3) and SRAddrFIFO_full(cco) = '0' else '0'; --= end, Various logic --- Clock divider. INCLUDE_CLOCK_DIVIDER: if clock_divider_needed(C_DMA_CHAN_TYPE, C_INTR_COALESCE) generate constant num_stages : natural := Div_Stages(base_period => C_CLK_PERIOD_PS, target_period=> C_PACKET_WAIT_UNIT_NS 1000 ); begin -------------------------------------------------------------------------- -- This option implements the packet-wait timebase divider using a -- Q-to-Clk ripple counter. -------------------------------------------------------------------------- GEN_RIPPLE_PW_DIVIDER: if RIPPLE_PW_DIVIDER generate signal divby2to : std_logic_vector(0 to num_stages); signal ripout, ripout_d1, ripout_d2, ripout_d3 : std_logic; begin divby2to(0) <= Bus2IP_Clk; ripout <= divby2to(num_stages); ------------------------------------------------------------------------ -- Clock division via a ripple counter. ------------------------------------------------------------------------ DIVIDE_CLK: for i in 1 to num_stages generate DIV_FF: process(divby2to(i-1), Bus2IP_Reset) begin if Bus2IP_Reset = RESET_ACTIVE then divby2to(i) <= '0'; else if divby2to(i-1)'event and divby2to(i-1) = '1' then divby2to(i) <= not divby2to(i); end if; end if; end process; end generate; ------------------------------------------------------------------------ -- This process syncronizes the output of the ripple counter into -- the Bus2IP_Clk domain and sets up edge detection. ------------------------------------------------------------------------ SYNC_AND_ENABLE: process(Bus2IP_Clk, Bus2IP_Reset) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = RESET_ACTIVE then ripout_d1 <= '0'; ripout_d2 <= '0'; ripout_d3 <= '0'; else ripout_d1 <= divby2to(num_stages); ripout_d2 <= ripout_d1; ripout_d3 <= ripout_d2; end if; end if; end process; ------------------------------------------------------------------------ -- Edge detection gives a one-pulse signal in the Bus2IP_Clk domain. ------------------------------------------------------------------------ pw_enable_pulse <= not ripout_d2 and ripout_d3; end generate GEN_RIPPLE_PW_DIVIDER; -------------------------------------------------------------------------- -- This option implements the packet-wait timebase divider using a -- synchronous counter. -------------------------------------------------------------------------- GEN_SYNC_PW_DIVIDER: if not RIPPLE_PW_DIVIDER generate constant ZERO_NUM_STAGES : std_logic_vector(0 to num_stages-1) := (others => '0'); signal sdivby2to : std_logic_vector(num_stages downto 1); signal sdivby2to_num_stages_d1 : std_logic; begin SYNC_PW_DIVIDER : PROCESS(Bus2IP_Clk, Bus2IP_Reset) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = RESET_ACTIVE then sdivby2to <= (others => '0'); else sdivby2to <= std_logic_vector(UNSIGNED(sdivby2to) + 1); end if; end if; end process; OUPUT_D1: process(Bus2IP_Clk, Bus2IP_Reset) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = RESET_ACTIVE then sdivby2to_num_stages_d1 <= '0'; else sdivby2to_num_stages_d1 <= sdivby2to(num_stages); end if; end if; end process; pw_enable_pulse <= not sdivby2to(num_stages) and sdivby2to_num_stages_d1; end generate GEN_SYNC_PW_DIVIDER; end generate INCLUDE_CLOCK_DIVIDER; EXCLUDE_CLOCK_DIVIDER: if not clock_divider_needed(C_DMA_CHAN_TYPE, C_INTR_COALESCE) generate pw_enable_pulse <= '0'; end generate EXCLUDE_CLOCK_DIVIDER; --= end, Clock divider. --- Register implementations --------------------------------------------------------------------- -- These processes generate the DMA2Bus_WrAck. --------------------------------------------------------------------- DMA2BUS_WRACK_I_PROCESS: process(Bus2IP_Clk) begin if (Bus2IP_Clk'event and Bus2IP_Clk = '1') then if (Bus2IP_Reset = RESET_ACTIVE) then dma2bus_wrack_i <= '0'; --ToDo The last conjunct probably not needed. elsif ((DMA_WrCE and Bus2IP_WrReq)='1' and dma2bus_wrack_i='0') then dma2bus_wrack_i <= '1'; else dma2bus_wrack_i <= '0'; end if; end if; end process; DMA2Bus_WrAck <= dma2bus_wrack_i; --------------------------------------------------------------------- -- These processes implement the channel reset "register". --------------------------------------------------------------------- PERP_CHANNEL_RESET_GEN: for i in 0 to LAST_CHAN generate prog_reset(i) <= bo2sl( (chan_sel(i) and RSTMIR_sel and dma2bus_wrack_i) = '1' and (Bus2IP_Data(DMA_DWIDTH-4 to DMA_DWIDTH-1)) = "1010" ); reset(i) <= bo2sl(Bus2IP_Reset = RESET_ACTIVE) or prog_reset(i); end generate; --------------------------------------------------------------------- -- This process implements a DMACR register for each channel. --------------------------------------------------------------------- -- DMACR_REG_PROCESS: process (Bus2IP_Clk) -- begin -- for i in 0 to LAST_CHAN loop -- if Bus2IP_Clk'event and Bus2IP_Clk='1' then -- if (reset(i) = RESET_ACTIVE) then -- DMACR(i)(0 to 6) <= "1001000"; -- elsif (chan_sel(i) and DMACR_sel and dma2bus_wrack_i) = '1' then -- DMACR(i)(0 to 6) <= Bus2IP_Data(0 to 6); -- end if; -- end if; -- end loop; -- end process; DMACR_GENERATE: for i in 0 to LAST_CHAN generate I_DMACR: ctrl_reg_0_to_6 -- I_DMACR: entity ctrl_reg(sim) generic map ("1001100") port map ( clk => Bus2IP_Clk, rst => reset(i), chan_sel => chan_sel(i), reg_sel => DMACR_sel, wr_ce => dma2bus_wrack_i, d => Bus2IP_Data(b_SINC to b_L_dmacr), q => DMACR(i)(b_SINC to b_L_dmacr) ); end generate; SWCR_GENERATE: for i in 0 to LAST_CHAN generate I_SWCR: ctrl_reg_0_to_0 generic map ("0") port map ( clk => Bus2IP_Clk, rst => reset(i), chan_sel => chan_sel(i), reg_sel => SWCR_sel, wr_ce => dma2bus_wrack_i, -- XGR_E33 d => Bus2IP_Data(b_SGE to b_SGE), -- XGR_E33 q => SWCR(i)(b_SGE to b_SGE) d => Bus2IP_Data(b_SGE), q => SWCR(i) ); end generate; --r --------------------------------------------------------------------- --r -- This process implements a SA register for each channel. --r --------------------------------------------------------------------- --r SA_REG_PROCESS: process (Bus2IP_Clk) --r begin --r for i in 0 to LAST_CHAN loop --r if Bus2IP_Clk'event and Bus2IP_Clk='1' then --r if (reset(i) = RESET_ACTIVE) then --r SA(i) <= (others => '0'); --r elsif (cco_onehot(i) and SINC(i) and inc_SA) = '1' then --r SA(i) <= SA(i) + BPST; --r elsif (chan_sel(i) and SA_sel and dma2bus_wrack_i) = '1' then --r SA(i) <= UNSIGNED(Bus2IP_Data); --r end if; --r end if; --r end loop; --r end process; --------------------------------------------------------------------- -- The below implements a SA for each channel. --------------------------------------------------------------------- SA_REG_GEN: for i in 0 to LAST_CHAN generate T_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 or C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate -------------------------------------------------------------------- -- XGR WA (OP, LOAD and RST renamed to -- OP_EF, LOAD_EF and RST_EF ... t0111.44) [XST workaround] -------------------------------------------------------------------- signal OP_EF, LOAD_EF, RST_EF : std_logic; signal qslv : std_logic_vector(SA(i)'range); begin -- RST_EF <= reset(i); LOAD_EF <= (chan_sel(i) and SA_sel and dma2bus_wrack_i); OP_EF <= (cco_onehot(i) and SINC(i) and inc_SA); -- I_SA : component ld_arith_reg generic map ( C_ADD_SUB_NOT => true, C_REG_WIDTH => SA(i)'length, C_RESET_VALUE => "00000000000000000000000000000000", C_LD_WIDTH => SA(i)'length, C_LD_OFFSET => 0, C_AD_WIDTH => 1, C_AD_OFFSET => BPST_BITS ) port map ( CK => Bus2IP_Clk, RST => RST_EF, Q => qslv(SA(i)'range), LD => Bus2IP_Data(0 to DMA_DWIDTH-1), AD => "1", LOAD => LOAD_EF, OP => OP_EF ); -- SA(i)(SA(i)'range) <= UNSIGNED(qslv(SA(i)'range)); end generate; end generate; --------------------------------------------------------------------- -- The below implements a DA for each channel. --------------------------------------------------------------------- DA_REG_GEN: for i in 0 to LAST_CHAN generate T_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 or C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate -------------------------------------------------------------------- -- XGR WA (OP, LOAD and RST renamed to -- OP_EF, LOAD_EF and RST_EF ... t0111.44) [XST workaround] -------------------------------------------------------------------- signal OP_EF, LOAD_EF, RST_EF : std_logic; signal qslv : std_logic_vector(DA(i)'range); begin -- RST_EF <= reset(i); LOAD_EF <= (chan_sel(i) and DA_sel and dma2bus_wrack_i); OP_EF <= (cco_onehot(i) and DINC(i) and inc_DA); -- I_DA : component ld_arith_reg generic map ( C_ADD_SUB_NOT => true, C_REG_WIDTH => DA(i)'length, C_RESET_VALUE => "00000000000000000000000000000000", C_LD_WIDTH => DA(i)'length, C_LD_OFFSET => 0, C_AD_WIDTH => 1, C_AD_OFFSET => BPST_BITS ) port map ( CK => Bus2IP_Clk, RST => RST_EF, Q => qslv(DA(i)'range), LD => Bus2IP_Data(0 to DMA_DWIDTH-1), AD => "1", LOAD => LOAD_EF, OP => OP_EF ); -- DA(i)(DA(i)'range) <= UNSIGNED(qslv(DA(i)'range)); end generate; end generate; LOAD_LENGTH_GENERATE: for i in 0 to LAST_CHAN generate load_length(i) <= chan_sel(i) and LENGTH_sel and dma2bus_wrack_i; end generate; LOAD_BDA_GENERATE: for i in 0 to LAST_CHAN generate load_bda(i) <= chan_sel(i) and BDA_sel and dma2bus_wrack_i; end generate; --------------------------------------------------------------------- -- The below implements a LENGTH register of the correct size for -- each channel. --------------------------------------------------------------------- LENGTH_REG_GEN: for i in 0 to LAST_CHAN generate T_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 or C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate -------------------------------------------------------------------- -- XGR WA (OP, LOAD and RST renamed to -- OP_EF, LOAD_EF and RST_EF ... t0111.44) [XST workaround] -------------------------------------------------------------------- signal OP_EF, LOAD_EF, RST_EF : std_logic; signal qslv : std_logic_vector(0 to DMA_DWIDTH-1); begin -- RST_EF <= reset(i) or ((cco_onehot(i) and clr_PLENGTH)); LOAD_EF <= (chan_sel(i) and LENGTH_sel and dma2bus_wrack_i); OP_EF <= (cco_onehot(i) and dec_LENGTH); -- I_LENGTH : component ld_arith_reg generic map ( C_ADD_SUB_NOT => false, C_REG_WIDTH => C_DMA_LENGTH_WIDTH(i), C_RESET_VALUE => "00000000000000000000000000000000", C_LD_WIDTH => C_DMA_LENGTH_WIDTH(i), C_LD_OFFSET => 0, C_AD_WIDTH => adj'length, C_AD_OFFSET => 0 ) port map ( CK => Bus2IP_Clk, RST => RST_EF, Q => qslv(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1), LD => Bus2IP_Data(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1), AD => std_logic_vector(adj), LOAD => LOAD_EF, OP => OP_EF ); -- LENGTH(i)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1) <= unsigned(qslv(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1)); LENGTH(i)(0 to DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i)-1) <= (others => '0'); end generate; end generate; --------------------------------------------------------------------- -- The below implements a PLENGTH register of the correct size for -- each channel that requires one. --------------------------------------------------------------------- PLENGTH_REG_GEN: for i in 0 to LAST_CHAN generate T0or1_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 generate PLENGTH(i) <= (others => '0'); end generate; T2_GEN: if C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate -------------------------------------------------------------------- -- XGR WA (OP, LOAD and RST renamed to -- OP_EF, LOAD_EF and RST_EF ... t0111.44) [XST workaround] -------------------------------------------------------------------- signal OP_EF, LOAD_EF, RST_EF : std_logic; signal qslv : std_logic_vector(0 to DMA_DWIDTH-1); begin -- RST_EF <= reset(i) or ((cco_onehot(i) and clr_PLENGTH)); LOAD_EF <= (chan_sel(i) and PLENGTH_sel and dma2bus_wrack_i); OP_ADD_GEN: if C_DMA_CHAN_TYPE(i) = 2 generate OP_EF <= (cco_onehot(i) and inc_PLENGTH); end generate; OP_SUB_GEN: if C_DMA_CHAN_TYPE(i) = 3 generate OP_EF <= (cco_onehot(i) and dec_PLENGTH); end generate; -- I_PLENGTH : component ld_arith_reg generic map ( C_ADD_SUB_NOT => C_DMA_CHAN_TYPE(i) = 2, C_REG_WIDTH => C_DMA_LENGTH_WIDTH(i), C_RESET_VALUE => "00000000000000000000000000000000", C_LD_WIDTH => C_DMA_LENGTH_WIDTH(i), C_LD_OFFSET => 0, C_AD_WIDTH => adj'length, C_AD_OFFSET => 0 ) port map ( CK => Bus2IP_Clk, RST => RST_EF, Q => qslv(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1), LD => Bus2IP_Data(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1), AD => std_logic_vector(adj), LOAD => LOAD_EF, OP => OP_EF ); -- PLENGTH(i)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1) <= unsigned(qslv(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1)); PLENGTH(i)(0 to DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i)-1) <= (others => '0'); end generate; end generate; --------------------------------------------------------------------- -- dma_active bit (set when LENGTH loaded, cleared by dma state machine). --------------------------------------------------------------------- DMA_ACTIVE_BIT_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then dma_active(i) <= '0'; elsif load_length(i) = '1' then dma_active(i) <= '1'; elsif dma_completing = '1' and cco = i then dma_active(i) <= '0'; end if; end if; end loop; end process; --------------------------------------------------------------------- -- This process implements a DMASR register for each channel. -- (note: DMA_BSY and SG_BSY implemented separately.) --------------------------------------------------------------------- DMASR_REG_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then DBE(i) <= '0'; DBT(i) <= '0'; L_rx(i) <= '0'; elsif cco = i then if dma_starting = '1' then DBE(i) <= '0'; DBT(i) <= '0'; L_rx(i) <= '0'; elsif set_DBE = '1' then DBE(i) <= '1'; elsif set_DBT = '1' then DBT(i) <= '1'; elsif set_L_rx= '1' then L_rx(i) <= '1'; end if; end if; end if; end loop; end process; --------------------------------------------------------------------- -- This process implements a BDA register for each channel that -- supports scatter/gather. --------------------------------------------------------------------- BDA_REG_PROCESS: process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk='1' then for i in 0 to LAST_CHAN loop if C_DMA_CHAN_TYPE(i) = 1 or C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 then if (reset(i) = RESET_ACTIVE) then BDA(i) <= ( others => '0'); no_bda_link(i) <= '0'; elsif load_bda(i) = '1' then BDA(i) <= UNSIGNED(Bus2IP_Data); no_bda_link(i) <= not sg_active(i); elsif (cco_onehot(i) and sg_active(i) and not is_idle(i)) = '1' then no_bda_link(i) <= '0'; end if; else no_bda_link(i) <= '0'; end if; end loop; end if; end process; ---------------------------------------------------------------------------- -- The processes below implement the ISR interrupt bits for each channel. ---------------------------------------------------------------------------- DD_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then DD(i) <= '0'; elsif dma_completing = '1' and cco_onehot(i) = '1' then DD(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then DD(i) <= DD(i) xor Bus2IP_Data(b_DD); -- Tog on wr. end if; end if; end loop; end process; DE_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then DE(i) <= '0'; elsif (set_DBE or set_DBT) = '1' and cco_onehot(i) = '1' then DE(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then DE(i) <= DE(i) xor Bus2IP_Data(b_DE); -- Tog on wr. end if; end if; end loop; end process; PD_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then PD(i) <= '0'; elsif rd_SRAddrFIFO(i) = '1' then PD(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then PD(i) <= PD(i) xor Bus2IP_Data(b_PD); -- Tog on wr. end if; end if; end loop; end process; PCTR_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then PCTR(i) <= '0'; elsif (UPC(i) >= PCT(i)) and (PCT(i) /= 0) then PCTR(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then PCTR(i) <= PCTR(i) xor Bus2IP_Data(b_PCTR); -- Tog on wr. end if; end if; end loop; end process; PWBR_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then PWBR(i) <= '0'; elsif C_DMA_CHAN_TYPE(i) > 1 and C_INTR_COALESCE(i) = 1 and (pw_timer_eq_0(i)) = '1' then PWBR(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then PWBR(i) <= PWBR(i) xor Bus2IP_Data(b_PWBR); -- Tog on wr. end if; end if; end loop; end process; SGDA_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then SGDA(i) <= '0'; elsif (not sg_active(i) and sg_active_d1(i) and not SGE(i)) = '1' then SGDA(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then SGDA(i) <= SGDA(i) xor Bus2IP_Data(b_SGDA); -- Tog on wr. end if; end if; end loop; end process; SGDEND_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then SGEND(i) <= '0'; elsif (not sg_active(i) and sg_active_d1(i) and SGS(i)) = '1' then SGEND(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then SGEND(i) <= SGEND(i) xor Bus2IP_Data(b_SGEND); -- Tog on wr. end if; end if; end loop; end process; ---------------------------------------------------------------------------- -- This process implements the IER for each channel. ---------------------------------------------------------------------------- IER_REG_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then EDD(i) <= '0'; EDE(i) <= '0'; EPD(i) <= '0'; EPCTR(i) <= '0'; EPWBR(i) <= '0'; ESGDA(i) <= '0'; ESGEND(i) <= '0'; elsif (chan_sel(i) and IER_sel and dma2bus_wrack_i) = '1' then EDD(i) <= Bus2IP_Data(b_DD); EDE(i) <= Bus2IP_Data(b_DE); EPD(i) <= Bus2IP_Data(b_PD); EPCTR(i) <= Bus2IP_Data(b_PCTR); EPWBR(i) <= Bus2IP_Data(b_PWBR); ESGDA(i) <= Bus2IP_Data(b_SGDA); ESGEND(i) <= Bus2IP_Data(b_SGEND); end if; end if; end loop; end process; ---------------------------------------------------------------------------- -- This process implements the UPC register for each channel. ---------------------------------------------------------------------------- UPC_REG_PROCESS: process (Bus2IP_Clk) variable add1 : UNSIGNED(DMA_DWIDTH-UPCB to DMA_DWIDTH-1); variable sub1 : natural; begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then add1 := (others => rd_SRAddrFIFO(i)); -- zero or minus 1 if (chan_sel(i) and UPC_sel and dma2bus_wrack_i and Bus2IP_Data(DMA_DWIDTH-1)) = '1' then sub1 := 1; else sub1 := 0; end if; if (reset(i) = RESET_ACTIVE) then UPC(i) <= (others => '0'); else UPC(i) <= (UPC(i) - add1) - sub1; -- This will increment if rd_SRAddrFIFO(i), decrement if -- writing a one in LSB, stay unchanged if both or neither. end if; end if; end loop; end process; ---------------------------------------------------------------------------- -- This process implements the PCT register for each channel. ---------------------------------------------------------------------------- PCT_REG_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then PCT(i) <= (others => '0'); elsif (chan_sel(i) and PCT_sel and dma2bus_wrack_i) = '1' then PCT(i) <= UNSIGNED(Bus2IP_Data(DMA_DWIDTH - UPCB to DMA_DWIDTH - 1) ); end if; end if; end loop; end process; ---------------------------------------------------------------------------- -- This process implements the PWB register for each channel. ---------------------------------------------------------------------------- PWB_REG_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then pwb_loaded(i) <= '0'; if (reset(i) = RESET_ACTIVE) then PWB(i) <= (others => '0'); elsif (chan_sel(i) and PWB_sel and dma2bus_wrack_i) = '1' then PWB(i) <= UNSIGNED(Bus2IP_Data(DMA_DWIDTH - PWBB to DMA_DWIDTH - 1) ); pwb_loaded(i) <= '1'; end if; end if; end loop; end process; PWB_EQ_0_GEN: for i in 0 to LAST_CHAN generate pwb_eq_0(i) <= not or_UNSIGNED(PWB(i)); pw_timer_eq_0(i) <= not or_UNSIGNED(pw_timer(i)); upc_eq_0(i) <= not or_UNSIGNED(UPC(i)); end generate; --------------------------------------------------------------------- -- The below implements a pw_timer register of each channel -- that requires one. --------------------------------------------------------------------- -- XGR issue on generic context LENGTH_cco <= zero_vector(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(0)) & LENGTH(cco)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(0) to DMA_DWIDTH-1); PLENGTH_cco <= zero_vector(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(0)) & PLENGTH(cco)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(0) to DMA_DWIDTH-1); -- XGR PW_TIMER_REG_GEN: for i in 0 to LAST_CHAN generate T0or1_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 generate pw_timer(i) <= (others => '0'); end generate; T2or3_GEN: if C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate -------------------------------------------------------------------- -- XGR WA (OP, LOAD and RST renamed to -- OP_EF, LOAD_EF and RST_EF ... t0111.44) [XST workaround] -------------------------------------------------------------------- signal OPxx, LOADxx_n, RSTxx : std_logic; signal qslv : std_logic_vector(pw_timer(i)'range); constant ALL_ONES : std_logic_vector(0 to pw_timer(i)'length-1) := (others => '1'); begin -- RSTxx <= reset(i) or pwb_eq_0(i); LOADxx_n <= not ( upc_eq_0(i) or DMA2Intr_Intr_i(i) or pw_timer_eq_0(i) or pwb_loaded(i) ); OPxx <= pw_enable_pulse; -- i_pw_timer : component ld_arith_reg2 generic map ( C_ADD_SUB_NOT => false, C_REG_WIDTH => pw_timer(i)'length, C_RESET_VALUE => ALL_ONES, C_LD_WIDTH => pw_timer(i)'length, C_LD_OFFSET => 0, C_AD_WIDTH => 1, C_AD_OFFSET => 0, C_LOAD_OVERRIDES => true ) port map ( CK => Bus2IP_Clk, RST => RSTxx, Q => qslv(pw_timer(i)'range), LD => std_logic_vector(PWB(i)), AD => "1", LOAD_n => LOADxx_n, OP => OPxx ); -- pw_timer(i) <= unsigned(qslv(pw_timer(i)'range)); end generate; end generate; --= end, Register implementations --- Some register values selected by cco. -- XGR LENGTH_cco <= zero_vector(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(cco)) & -- XGR LENGTH(cco)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(cco) to -- XGR DMA_DWIDTH-1); -- XGR PLENGTH_cco <= zero_vector(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(cco)) & -- XGR PLENGTH(cco)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(cco) to -- XGR DMA_DWIDTH-1); --= end, Some register values selected by cco. ---( Register readback --------------------------------------------------------------------- -- This process enables the selected register onto DMA2Bus_Data -- on slave reads. --------------------------------------------------------------------- READ_REGISTER_PROCESS:process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk='1' then DMA2Bus_Data(0) <= (ver_i(0) and DMA_RdCE and RSTMIR_sel) or (dcr_i(0) and DMA_RdCE and DMACR_sel) or ( sa_i(0) and DMA_RdCE and SA_sel) or ( da_i(0) and DMA_RdCE and DA_sel) or (lnt_i(0) and DMA_RdCE and LENGTH_sel) or (dsr_i(0) and DMA_RdCE and DMASR_sel) or (bda_i(0) and DMA_RdCE and BDA_sel) or (sge_i(0) and DMA_RdCE and SWCR_sel) or -- (upc_i(0) and DMA_RdCE and UPC_sel) or -- (pct_i(0) and DMA_RdCE and PCT_sel) or -- (pwb_i(0) and DMA_RdCE and PWB_sel) or -- (isr_i(0) and DMA_RdCE and ISR_sel) or -- (ier_i(0) and DMA_RdCE and IER_sel) or (ple_i(0) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(1) <= (ver_i(1) and DMA_RdCE and RSTMIR_sel) or (dcr_i(1) and DMA_RdCE and DMACR_sel) or ( sa_i(1) and DMA_RdCE and SA_sel) or ( da_i(1) and DMA_RdCE and DA_sel) or (lnt_i(1) and DMA_RdCE and LENGTH_sel) or (dsr_i(1) and DMA_RdCE and DMASR_sel) or (bda_i(1) and DMA_RdCE and BDA_sel) or -- (sge_i(1) and DMA_RdCE and SWCR_sel) or -- (upc_i(1) and DMA_RdCE and UPC_sel) or -- (pct_i(1) and DMA_RdCE and PCT_sel) or -- (pwb_i(1) and DMA_RdCE and PWB_sel) or -- (isr_i(1) and DMA_RdCE and ISR_sel) or -- (ier_i(1) and DMA_RdCE and IER_sel) or (ple_i(1) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(2) <= (ver_i(2) and DMA_RdCE and RSTMIR_sel) or (dcr_i(2) and DMA_RdCE and DMACR_sel) or ( sa_i(2) and DMA_RdCE and SA_sel) or ( da_i(2) and DMA_RdCE and DA_sel) or (lnt_i(2) and DMA_RdCE and LENGTH_sel) or (dsr_i(2) and DMA_RdCE and DMASR_sel) or (bda_i(2) and DMA_RdCE and BDA_sel) or -- (sge_i(2) and DMA_RdCE and SWCR_sel) or -- (upc_i(2) and DMA_RdCE and UPC_sel) or -- (pct_i(2) and DMA_RdCE and PCT_sel) or -- (pwb_i(2) and DMA_RdCE and PWB_sel) or -- (isr_i(2) and DMA_RdCE and ISR_sel) or -- (ier_i(2) and DMA_RdCE and IER_sel) or (ple_i(2) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(3) <= (ver_i(3) and DMA_RdCE and RSTMIR_sel) or (dcr_i(3) and DMA_RdCE and DMACR_sel) or ( sa_i(3) and DMA_RdCE and SA_sel) or ( da_i(3) and DMA_RdCE and DA_sel) or (lnt_i(3) and DMA_RdCE and LENGTH_sel) or (dsr_i(3) and DMA_RdCE and DMASR_sel) or (bda_i(3) and DMA_RdCE and BDA_sel) or -- (sge_i(3) and DMA_RdCE and SWCR_sel) or -- (upc_i(3) and DMA_RdCE and UPC_sel) or -- (pct_i(3) and DMA_RdCE and PCT_sel) or -- (pwb_i(3) and DMA_RdCE and PWB_sel) or -- (isr_i(3) and DMA_RdCE and ISR_sel) or -- (ier_i(3) and DMA_RdCE and IER_sel) or (ple_i(3) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(4) <= (ver_i(4) and DMA_RdCE and RSTMIR_sel) or (dcr_i(4) and DMA_RdCE and DMACR_sel) or ( sa_i(4) and DMA_RdCE and SA_sel) or ( da_i(4) and DMA_RdCE and DA_sel) or (lnt_i(4) and DMA_RdCE and LENGTH_sel) or (dsr_i(4) and DMA_RdCE and DMASR_sel) or (bda_i(4) and DMA_RdCE and BDA_sel) or -- (sge_i(4) and DMA_RdCE and SWCR_sel) or -- (upc_i(4) and DMA_RdCE and UPC_sel) or -- (pct_i(4) and DMA_RdCE and PCT_sel) or -- (pwb_i(4) and DMA_RdCE and PWB_sel) or -- (isr_i(4) and DMA_RdCE and ISR_sel) or -- (ier_i(4) and DMA_RdCE and IER_sel) or (ple_i(4) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(5) <= (ver_i(5) and DMA_RdCE and RSTMIR_sel) or (dcr_i(5) and DMA_RdCE and DMACR_sel) or ( sa_i(5) and DMA_RdCE and SA_sel) or ( da_i(5) and DMA_RdCE and DA_sel) or (lnt_i(5) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(5) and DMA_RdCE and DMASR_sel) or (bda_i(5) and DMA_RdCE and BDA_sel) or -- (sge_i(5) and DMA_RdCE and SWCR_sel) or -- (upc_i(5) and DMA_RdCE and UPC_sel) or -- (pct_i(5) and DMA_RdCE and PCT_sel) or -- (pwb_i(5) and DMA_RdCE and PWB_sel) or -- (isr_i(5) and DMA_RdCE and ISR_sel) or -- (ier_i(5) and DMA_RdCE and IER_sel) or (ple_i(5) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(6) <= (ver_i(6) and DMA_RdCE and RSTMIR_sel) or (dcr_i(6) and DMA_RdCE and DMACR_sel) or ( sa_i(6) and DMA_RdCE and SA_sel) or ( da_i(6) and DMA_RdCE and DA_sel) or (lnt_i(6) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(6) and DMA_RdCE and DMASR_sel) or (bda_i(6) and DMA_RdCE and BDA_sel) or -- (sge_i(6) and DMA_RdCE and SWCR_sel) or -- (upc_i(6) and DMA_RdCE and UPC_sel) or -- (pct_i(6) and DMA_RdCE and PCT_sel) or -- (pwb_i(6) and DMA_RdCE and PWB_sel) or -- (isr_i(6) and DMA_RdCE and ISR_sel) or -- (ier_i(6) and DMA_RdCE and IER_sel) or (ple_i(6) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(7) <= (ver_i(7) and DMA_RdCE and RSTMIR_sel) or (dcr_i(7) and DMA_RdCE and DMACR_sel) or ( sa_i(7) and DMA_RdCE and SA_sel) or ( da_i(7) and DMA_RdCE and DA_sel) or (lnt_i(7) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(7) and DMA_RdCE and DMASR_sel) or (bda_i(7) and DMA_RdCE and BDA_sel) or -- (sge_i(7) and DMA_RdCE and SWCR_sel) or -- (upc_i(7) and DMA_RdCE and UPC_sel) or -- (pct_i(7) and DMA_RdCE and PCT_sel) or -- (pwb_i(7) and DMA_RdCE and PWB_sel) or -- (isr_i(7) and DMA_RdCE and ISR_sel) or -- (ier_i(7) and DMA_RdCE and IER_sel) or (ple_i(7) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(8) <= (ver_i(8) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(8) and DMA_RdCE and DMACR_sel) or ( sa_i(8) and DMA_RdCE and SA_sel) or ( da_i(8) and DMA_RdCE and DA_sel) or (lnt_i(8) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(8) and DMA_RdCE and DMASR_sel) or (bda_i(8) and DMA_RdCE and BDA_sel) or -- (sge_i(8) and DMA_RdCE and SWCR_sel) or -- (upc_i(8) and DMA_RdCE and UPC_sel) or -- (pct_i(8) and DMA_RdCE and PCT_sel) or -- (pwb_i(8) and DMA_RdCE and PWB_sel) or -- (isr_i(8) and DMA_RdCE and ISR_sel) or -- (ier_i(8) and DMA_RdCE and IER_sel) or (ple_i(8) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(9) <= (ver_i(9) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(9) and DMA_RdCE and DMACR_sel) or ( sa_i(9) and DMA_RdCE and SA_sel) or ( da_i(9) and DMA_RdCE and DA_sel) or (lnt_i(9) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(9) and DMA_RdCE and DMASR_sel) or (bda_i(9) and DMA_RdCE and BDA_sel) or -- (sge_i(9) and DMA_RdCE and SWCR_sel) or -- (upc_i(9) and DMA_RdCE and UPC_sel) or -- (pct_i(9) and DMA_RdCE and PCT_sel) or -- (pwb_i(9) and DMA_RdCE and PWB_sel) or -- (isr_i(9) and DMA_RdCE and ISR_sel) or -- (ier_i(9) and DMA_RdCE and IER_sel) or (ple_i(9) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(10) <= (ver_i(10) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(10) and DMA_RdCE and DMACR_sel) or ( sa_i(10) and DMA_RdCE and SA_sel) or ( da_i(10) and DMA_RdCE and DA_sel) or (lnt_i(10) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(10) and DMA_RdCE and DMASR_sel) or (bda_i(10) and DMA_RdCE and BDA_sel) or -- (sge_i(10) and DMA_RdCE and SWCR_sel) or -- (upc_i(10) and DMA_RdCE and UPC_sel) or -- (pct_i(10) and DMA_RdCE and PCT_sel) or -- (pwb_i(10) and DMA_RdCE and PWB_sel) or -- (isr_i(10) and DMA_RdCE and ISR_sel) or -- (ier_i(10) and DMA_RdCE and IER_sel) or (ple_i(10) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(11) <= (ver_i(11) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(11) and DMA_RdCE and DMACR_sel) or ( sa_i(11) and DMA_RdCE and SA_sel) or ( da_i(11) and DMA_RdCE and DA_sel) or (lnt_i(11) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(11) and DMA_RdCE and DMASR_sel) or (bda_i(11) and DMA_RdCE and BDA_sel) or -- (sge_i(11) and DMA_RdCE and SWCR_sel) or -- (upc_i(11) and DMA_RdCE and UPC_sel) or -- (pct_i(11) and DMA_RdCE and PCT_sel) or -- (pwb_i(11) and DMA_RdCE and PWB_sel) or -- (isr_i(11) and DMA_RdCE and ISR_sel) or -- (ier_i(11) and DMA_RdCE and IER_sel) or (ple_i(11) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(12) <= (ver_i(12) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(12) and DMA_RdCE and DMACR_sel) or ( sa_i(12) and DMA_RdCE and SA_sel) or ( da_i(12) and DMA_RdCE and DA_sel) or (lnt_i(12) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(12) and DMA_RdCE and DMASR_sel) or (bda_i(12) and DMA_RdCE and BDA_sel) or -- (sge_i(12) and DMA_RdCE and SWCR_sel) or -- (upc_i(12) and DMA_RdCE and UPC_sel) or -- (pct_i(12) and DMA_RdCE and PCT_sel) or -- (pwb_i(12) and DMA_RdCE and PWB_sel) or -- (isr_i(12) and DMA_RdCE and ISR_sel) or -- (ier_i(12) and DMA_RdCE and IER_sel) or (ple_i(12) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(13) <= (ver_i(13) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(13) and DMA_RdCE and DMACR_sel) or ( sa_i(13) and DMA_RdCE and SA_sel) or ( da_i(13) and DMA_RdCE and DA_sel) or (lnt_i(13) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(13) and DMA_RdCE and DMASR_sel) or (bda_i(13) and DMA_RdCE and BDA_sel) or -- (sge_i(13) and DMA_RdCE and SWCR_sel) or -- (upc_i(13) and DMA_RdCE and UPC_sel) or -- (pct_i(13) and DMA_RdCE and PCT_sel) or -- (pwb_i(13) and DMA_RdCE and PWB_sel) or -- (isr_i(13) and DMA_RdCE and ISR_sel) or -- (ier_i(13) and DMA_RdCE and IER_sel) or (ple_i(13) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(14) <= (ver_i(14) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(14) and DMA_RdCE and DMACR_sel) or ( sa_i(14) and DMA_RdCE and SA_sel) or ( da_i(14) and DMA_RdCE and DA_sel) or (lnt_i(14) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(14) and DMA_RdCE and DMASR_sel) or (bda_i(14) and DMA_RdCE and BDA_sel) or -- (sge_i(14) and DMA_RdCE and SWCR_sel) or -- (upc_i(14) and DMA_RdCE and UPC_sel) or -- (pct_i(14) and DMA_RdCE and PCT_sel) or -- (pwb_i(14) and DMA_RdCE and PWB_sel) or -- (isr_i(14) and DMA_RdCE and ISR_sel) or -- (ier_i(14) and DMA_RdCE and IER_sel) or (ple_i(14) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(15) <= (ver_i(15) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(15) and DMA_RdCE and DMACR_sel) or ( sa_i(15) and DMA_RdCE and SA_sel) or ( da_i(15) and DMA_RdCE and DA_sel) or (lnt_i(15) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(15) and DMA_RdCE and DMASR_sel) or (bda_i(15) and DMA_RdCE and BDA_sel) or -- (sge_i(15) and DMA_RdCE and SWCR_sel) or -- (upc_i(15) and DMA_RdCE and UPC_sel) or -- (pct_i(15) and DMA_RdCE and PCT_sel) or -- (pwb_i(15) and DMA_RdCE and PWB_sel) or -- (isr_i(15) and DMA_RdCE and ISR_sel) or -- (ier_i(15) and DMA_RdCE and IER_sel) or (ple_i(15) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(16) <= (ver_i(16) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(16) and DMA_RdCE and DMACR_sel) or ( sa_i(16) and DMA_RdCE and SA_sel) or ( da_i(16) and DMA_RdCE and DA_sel) or (lnt_i(16) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(16) and DMA_RdCE and DMASR_sel) or (bda_i(16) and DMA_RdCE and BDA_sel) or -- (sge_i(16) and DMA_RdCE and SWCR_sel) or -- (upc_i(16) and DMA_RdCE and UPC_sel) or -- (pct_i(16) and DMA_RdCE and PCT_sel) or -- (pwb_i(16) and DMA_RdCE and PWB_sel) or -- (isr_i(16) and DMA_RdCE and ISR_sel) or -- (ier_i(16) and DMA_RdCE and IER_sel) or (ple_i(16) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(17) <= (ver_i(17) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(17) and DMA_RdCE and DMACR_sel) or ( sa_i(17) and DMA_RdCE and SA_sel) or ( da_i(17) and DMA_RdCE and DA_sel) or (lnt_i(17) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(17) and DMA_RdCE and DMASR_sel) or (bda_i(17) and DMA_RdCE and BDA_sel) or -- (sge_i(17) and DMA_RdCE and SWCR_sel) or -- (upc_i(17) and DMA_RdCE and UPC_sel) or -- (pct_i(17) and DMA_RdCE and PCT_sel) or -- (pwb_i(17) and DMA_RdCE and PWB_sel) or -- (isr_i(17) and DMA_RdCE and ISR_sel) or -- (ier_i(17) and DMA_RdCE and IER_sel) or (ple_i(17) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(18) <= (ver_i(18) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(18) and DMA_RdCE and DMACR_sel) or ( sa_i(18) and DMA_RdCE and SA_sel) or ( da_i(18) and DMA_RdCE and DA_sel) or (lnt_i(18) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(18) and DMA_RdCE and DMASR_sel) or (bda_i(18) and DMA_RdCE and BDA_sel) or -- (sge_i(18) and DMA_RdCE and SWCR_sel) or -- (upc_i(18) and DMA_RdCE and UPC_sel) or -- (pct_i(18) and DMA_RdCE and PCT_sel) or -- (pwb_i(18) and DMA_RdCE and PWB_sel) or -- (isr_i(18) and DMA_RdCE and ISR_sel) or -- (ier_i(18) and DMA_RdCE and IER_sel) or (ple_i(18) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(19) <= (ver_i(19) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(19) and DMA_RdCE and DMACR_sel) or ( sa_i(19) and DMA_RdCE and SA_sel) or ( da_i(19) and DMA_RdCE and DA_sel) or (lnt_i(19) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(19) and DMA_RdCE and DMASR_sel) or (bda_i(19) and DMA_RdCE and BDA_sel) or -- (sge_i(19) and DMA_RdCE and SWCR_sel) or -- (upc_i(19) and DMA_RdCE and UPC_sel) or -- (pct_i(19) and DMA_RdCE and PCT_sel) or -- (pwb_i(19) and DMA_RdCE and PWB_sel) or -- (isr_i(19) and DMA_RdCE and ISR_sel) or -- (ier_i(19) and DMA_RdCE and IER_sel) or (ple_i(19) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(20) <= (ver_i(20) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(20) and DMA_RdCE and DMACR_sel) or ( sa_i(20) and DMA_RdCE and SA_sel) or ( da_i(20) and DMA_RdCE and DA_sel) or (lnt_i(20) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(20) and DMA_RdCE and DMASR_sel) or (bda_i(20) and DMA_RdCE and BDA_sel) or -- (sge_i(20) and DMA_RdCE and SWCR_sel) or -- (upc_i(20) and DMA_RdCE and UPC_sel) or -- (pct_i(20) and DMA_RdCE and PCT_sel) or -- (pwb_i(20) and DMA_RdCE and PWB_sel) or -- (isr_i(20) and DMA_RdCE and ISR_sel) or -- (ier_i(20) and DMA_RdCE and IER_sel) or (ple_i(20) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(21) <= (ver_i(21) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(21) and DMA_RdCE and DMACR_sel) or ( sa_i(21) and DMA_RdCE and SA_sel) or ( da_i(21) and DMA_RdCE and DA_sel) or (lnt_i(21) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(21) and DMA_RdCE and DMASR_sel) or (bda_i(21) and DMA_RdCE and BDA_sel) or -- (sge_i(21) and DMA_RdCE and SWCR_sel) or -- (upc_i(21) and DMA_RdCE and UPC_sel) or -- (pct_i(21) and DMA_RdCE and PCT_sel) or -- (pwb_i(21) and DMA_RdCE and PWB_sel) or -- (isr_i(21) and DMA_RdCE and ISR_sel) or -- (ier_i(21) and DMA_RdCE and IER_sel) or (ple_i(21) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(22) <= (ver_i(22) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(22) and DMA_RdCE and DMACR_sel) or ( sa_i(22) and DMA_RdCE and SA_sel) or ( da_i(22) and DMA_RdCE and DA_sel) or (lnt_i(22) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(22) and DMA_RdCE and DMASR_sel) or (bda_i(22) and DMA_RdCE and BDA_sel) or -- (sge_i(22) and DMA_RdCE and SWCR_sel) or (upc_i(22) and DMA_RdCE and UPC_sel) or (pct_i(22) and DMA_RdCE and PCT_sel) or (pwb_i(22) and DMA_RdCE and PWB_sel) or -- (isr_i(22) and DMA_RdCE and ISR_sel) or -- (ier_i(22) and DMA_RdCE and IER_sel) or (ple_i(22) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(23) <= (ver_i(23) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(23) and DMA_RdCE and DMACR_sel) or ( sa_i(23) and DMA_RdCE and SA_sel) or ( da_i(23) and DMA_RdCE and DA_sel) or (lnt_i(23) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(23) and DMA_RdCE and DMASR_sel) or (bda_i(23) and DMA_RdCE and BDA_sel) or -- (sge_i(23) and DMA_RdCE and SWCR_sel) or (upc_i(23) and DMA_RdCE and UPC_sel) or (pct_i(23) and DMA_RdCE and PCT_sel) or (pwb_i(23) and DMA_RdCE and PWB_sel) or -- (isr_i(23) and DMA_RdCE and ISR_sel) or -- (ier_i(23) and DMA_RdCE and IER_sel) or (ple_i(23) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(24) <= (ver_i(24) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(24) and DMA_RdCE and DMACR_sel) or ( sa_i(24) and DMA_RdCE and SA_sel) or ( da_i(24) and DMA_RdCE and DA_sel) or (lnt_i(24) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(24) and DMA_RdCE and DMASR_sel) or (bda_i(24) and DMA_RdCE and BDA_sel) or -- (sge_i(24) and DMA_RdCE and SWCR_sel) or (upc_i(24) and DMA_RdCE and UPC_sel) or (pct_i(24) and DMA_RdCE and PCT_sel) or (pwb_i(24) and DMA_RdCE and PWB_sel) or (isr_i(24) and DMA_RdCE and ISR_sel) or (ier_i(24) and DMA_RdCE and IER_sel) or (ple_i(24) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(25) <= (ver_i(25) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(25) and DMA_RdCE and DMACR_sel) or ( sa_i(25) and DMA_RdCE and SA_sel) or ( da_i(25) and DMA_RdCE and DA_sel) or (lnt_i(25) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(25) and DMA_RdCE and DMASR_sel) or (bda_i(25) and DMA_RdCE and BDA_sel) or -- (sge_i(25) and DMA_RdCE and SWCR_sel) or (upc_i(25) and DMA_RdCE and UPC_sel) or (pct_i(25) and DMA_RdCE and PCT_sel) or (pwb_i(25) and DMA_RdCE and PWB_sel) or (isr_i(25) and DMA_RdCE and ISR_sel) or (ier_i(25) and DMA_RdCE and IER_sel) or (ple_i(25) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(26) <= (ver_i(26) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(26) and DMA_RdCE and DMACR_sel) or ( sa_i(26) and DMA_RdCE and SA_sel) or ( da_i(26) and DMA_RdCE and DA_sel) or (lnt_i(26) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(26) and DMA_RdCE and DMASR_sel) or (bda_i(26) and DMA_RdCE and BDA_sel) or -- (sge_i(26) and DMA_RdCE and SWCR_sel) or (upc_i(26) and DMA_RdCE and UPC_sel) or (pct_i(26) and DMA_RdCE and PCT_sel) or (pwb_i(26) and DMA_RdCE and PWB_sel) or (isr_i(26) and DMA_RdCE and ISR_sel) or (ier_i(26) and DMA_RdCE and IER_sel) or (ple_i(26) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(27) <= (ver_i(27) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(27) and DMA_RdCE and DMACR_sel) or ( sa_i(27) and DMA_RdCE and SA_sel) or ( da_i(27) and DMA_RdCE and DA_sel) or (lnt_i(27) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(27) and DMA_RdCE and DMASR_sel) or (bda_i(27) and DMA_RdCE and BDA_sel) or -- (sge_i(27) and DMA_RdCE and SWCR_sel) or (upc_i(27) and DMA_RdCE and UPC_sel) or (pct_i(27) and DMA_RdCE and PCT_sel) or (pwb_i(27) and DMA_RdCE and PWB_sel) or (isr_i(27) and DMA_RdCE and ISR_sel) or (ier_i(27) and DMA_RdCE and IER_sel) or (ple_i(27) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(28) <= (ver_i(28) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(28) and DMA_RdCE and DMACR_sel) or ( sa_i(28) and DMA_RdCE and SA_sel) or ( da_i(28) and DMA_RdCE and DA_sel) or (lnt_i(28) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(28) and DMA_RdCE and DMASR_sel) or (bda_i(28) and DMA_RdCE and BDA_sel) or -- (sge_i(28) and DMA_RdCE and SWCR_sel) or (upc_i(28) and DMA_RdCE and UPC_sel) or (pct_i(28) and DMA_RdCE and PCT_sel) or (pwb_i(28) and DMA_RdCE and PWB_sel) or (isr_i(28) and DMA_RdCE and ISR_sel) or (ier_i(28) and DMA_RdCE and IER_sel) or (ple_i(28) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(29) <= (ver_i(29) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(29) and DMA_RdCE and DMACR_sel) or ( sa_i(29) and DMA_RdCE and SA_sel) or ( da_i(29) and DMA_RdCE and DA_sel) or (lnt_i(29) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(29) and DMA_RdCE and DMASR_sel) or (bda_i(29) and DMA_RdCE and BDA_sel) or -- (sge_i(29) and DMA_RdCE and SWCR_sel) or (upc_i(29) and DMA_RdCE and UPC_sel) or (pct_i(29) and DMA_RdCE and PCT_sel) or (pwb_i(29) and DMA_RdCE and PWB_sel) or (isr_i(29) and DMA_RdCE and ISR_sel) or (ier_i(29) and DMA_RdCE and IER_sel) or (ple_i(29) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(30) <= (ver_i(30) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(30) and DMA_RdCE and DMACR_sel) or ( sa_i(30) and DMA_RdCE and SA_sel) or ( da_i(30) and DMA_RdCE and DA_sel) or (lnt_i(30) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(30) and DMA_RdCE and DMASR_sel) or (bda_i(30) and DMA_RdCE and BDA_sel) or -- (sge_i(30) and DMA_RdCE and SWCR_sel) or (upc_i(30) and DMA_RdCE and UPC_sel) or (pct_i(30) and DMA_RdCE and PCT_sel) or (pwb_i(30) and DMA_RdCE and PWB_sel) or (isr_i(30) and DMA_RdCE and ISR_sel) or (ier_i(30) and DMA_RdCE and IER_sel) or (ple_i(30) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(31) <= (ver_i(31) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(31) and DMA_RdCE and DMACR_sel) or ( sa_i(31) and DMA_RdCE and SA_sel) or ( da_i(31) and DMA_RdCE and DA_sel) or (lnt_i(31) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(31) and DMA_RdCE and DMASR_sel) or (bda_i(31) and DMA_RdCE and BDA_sel) or -- (sge_i(31) and DMA_RdCE and SWCR_sel) or (upc_i(31) and DMA_RdCE and UPC_sel) or (pct_i(31) and DMA_RdCE and PCT_sel) or (pwb_i(31) and DMA_RdCE and PWB_sel) or (isr_i(31) and DMA_RdCE and ISR_sel) or (ier_i(31) and DMA_RdCE and IER_sel) or (ple_i(31) and DMA_RdCE and PLENGTH_sel); end if; end process; -- Module Identification Register 0 - 31 used ver_i <= std_logic_vector(TO_UNSIGNED(MAJOR_VERSION , 4)) & std_logic_vector(TO_UNSIGNED(MINOR_VERSION , 7)) & std_logic_vector(TO_UNSIGNED(HW_SW_COMPATIBILITY_REVISION, 5)) & std_logic_vector(TO_UNSIGNED(C_DEV_BLK_ID, 8)) & std_logic_vector(TO_UNSIGNED(C_DMA_CHAN_TYPE(chan_num)+4, 8)); -- DMA Control Register 0 - 7 used dcr_i <= DMACR(chan_num) & "0000000000000000000000000"; -- Source Address 0 - 31 used sa_i <= std_logic_vector(SA(chan_num)); -- Destination Address 0 - 31 used da_i <= std_logic_vector(DA(chan_num)); -- DMA Length 0 - 31 used -- lnt_i <= std_logic_vector(RESIZE(LENGTH(chan_num)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(chan_num) to -- DMA_DWIDTH-1),DMA_DWIDTH)); lnt_i <= std_logic_vector(RESIZE(LENGTH(chan_num)(LENGTHS_LEFT to DMA_DWIDTH-1),DMA_DWIDTH)); -- DMA Status Register 0 - 3 used dsr_i <= dma_active(chan_num) & DBE(chan_num) & DBT(chan_num) & L(chan_num) & sg_active(chan_num) & "000000000000000000000000000"; -- Buffer Descriptor Address 0 - 31 used bda_i <= std_logic_vector(BDA(chan_num)); -- Software Control Register 0 - 0 used sge_i <= SGE(chan_num) & "0000000000000000000000000000000"; -- Unserviced Packet Count 22 - 31 used upc_i <= std_logic_vector(RESIZE(UPC(chan_num)(DMA_DWIDTH - UPCB to DMA_DWIDTH - 1),32)); -- Packet Count Threshold 22 - 31 used pct_i <= std_logic_vector(RESIZE(PCT(chan_num)(DMA_DWIDTH - UPCB to DMA_DWIDTH - 1),DMA_DWIDTH)); -- Packet Wait Bound 22 - 31 used pwb_i <= std_logic_vector(RESIZE(PWB(chan_num)(DMA_DWIDTH - PWBB to DMA_DWIDTH - 1),DMA_DWIDTH)); -- Interrupt Status Register 24 - 31 used isr_i <= "0000000000000000000000000" & SGEND(chan_num) & SGDA(chan_num) & PWBR(chan_num) & PCTR(chan_num) & PD(chan_num) & DE(chan_num) & DD(chan_num); -- Interrupt Enable Register 24 - 31 used ier_i <= "0000000000000000000000000" & ESGEND(chan_num) & ESGDA(chan_num) & EPWBR(chan_num) & EPCTR(chan_num) & EPD(chan_num) & EDE(chan_num) & EDD(chan_num); -- ple_i <= std_logic_vector(RESIZE(PLENGTH(chan_num)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(chan_num) to -- DMA_DWIDTH-1),DMA_DWIDTH)); ple_i <= std_logic_vector(RESIZE(PLENGTH(chan_num)(LENGTHS_LEFT to DMA_DWIDTH-1),DMA_DWIDTH)); --p DMA2Bus_Data <= --p --p std_logic_vector(TO_UNSIGNED(MAJOR_VERSION , 4)) & --p --p std_logic_vector(TO_UNSIGNED(MINOR_VERSION , 7)) & --p --p std_logic_vector(TO_UNSIGNED(HW_SW_COMPATIBILITY_REVISION, 5)) & --p --p std_logic_vector(TO_UNSIGNED(C_DEV_BLK_ID, 8)) & --p --p std_logic_vector(TO_UNSIGNED(C_DMA_CHAN_TYPE(chan_num)+4, 8)) --p --p when (RSTMIR_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p DMACR(chan_num) --p --p & "0000000000000000000000000" when ( DMACR_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector(SA(chan_num)) when ( SA_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector(DA(chan_num)) when ( DA_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector( --p --p RESIZE( --p --p LENGTH(chan_num)( --p --p DMA_DWIDTH-C_DMA_LENGTH_WIDTH(chan_num) to --p DMA_DWIDTH-1), --p --p DMA_DWIDTH --p --p ) --p --p ) when (LENGTH_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p dma_active(chan_num) -- DMA_BSY --p --p & DBE(chan_num) --p --p & DBT(chan_num) --p --p & L(chan_num) --p --p & sg_active(chan_num) -- SG_BSY --p --p & "000000000000000000000000000" when ( DMASR_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector(BDA(chan_num)) when ( BDA_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p SGE(chan_num) & --p --p "0000000000000000000000000000000" when ( SWCR_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector( --p --p RESIZE( --p --p UPC(chan_num)( --p --p DMA_DWIDTH - UPCB to --p --p DMA_DWIDTH - 1 --p --p ), --p --p 32 --p --p ) --p --p ) when ( UPC_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector( --p --p RESIZE( --p --p PCT(chan_num)( --p --p DMA_DWIDTH - UPCB to --p --p DMA_DWIDTH - 1 --p --p ), --p --p DMA_DWIDTH --p --p ) --p --p ) when ( PCT_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector( --p --p RESIZE( --p --p PWB(chan_num)( --p --p DMA_DWIDTH - PWBB to --p --p DMA_DWIDTH - 1 --p --p ), --p --p DMA_DWIDTH --p --p ) --p --p ) when ( PWB_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p "0000000000000000000000000" --p --p & SGEND(chan_num) & SGDA(chan_num) --p --p & PWBR(chan_num) & PCTR(chan_num) --p --p & PD(chan_num) --p --p & DE(chan_num) & DD(chan_num) when ( ISR_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p "0000000000000000000000000" --p --p & ESGEND(chan_num) & ESGDA(chan_num) --p --p & EPWBR(chan_num) & EPCTR(chan_num) --p --p & EPD(chan_num) --p --p & EDE(chan_num) & EDD(chan_num) --p --p when ( IER_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector( --p --p RESIZE( --p --p PLENGTH(chan_num)( --p --p DMA_DWIDTH-C_DMA_LENGTH_WIDTH(chan_num) to --p DMA_DWIDTH-1), --p --p DMA_DWIDTH --p --p ) --p --p ) when (PLENGTH_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p "00000000000000000000000000000000"; --p DMA2BUS_RDACK_I_PROCESS: process(Bus2IP_Clk) begin if (Bus2IP_Clk'event and Bus2IP_Clk = '1') then if (Bus2IP_Reset = RESET_ACTIVE) then dma2bus_rdack_i <= '0'; else dma2bus_rdack_i <= DMA_RdCE and Bus2IP_RdReq and not dma2bus_rdack_i; end if; end if; end process; DMA2Bus_RdAck <= dma2bus_rdack_i; ---) end, Register readback rx_cco <= rx(cco); ---------------------------------------------------------------------------- -- The below calculates the size of burst to use for the next DMA transfer -- on the channel currently operating (cco). ---------------------------------------------------------------------------- BURST_SIZE_CALC_I0 : burst_size_calc generic map ( C_LENGTH_WIDTH => LENGTHS_WIDTH, C_MSTNUM_WIDTH => C_MA2SA_NUM_WIDTH, C_DMA_BURST_SIZE => TPB, C_BYTES_PER_SINGLE_TRANSFER => BPST, C_DMA_SHORT_BURST_REMAINDER => C_DMA_SHORT_BURST_REMAINDER ) port map ( Bus2IP_Clk => Bus2IP_Clk, LENGTH_cco => std_logic_vector(LENGTH_cco(LENGTHS_LEFT to DMA_DWIDTH-1)), PLENGTH_cco => std_logic_vector(PLENGTH_cco(LENGTHS_LEFT to DMA_DWIDTH-1)), Rx_cco => rx_cco, MstNum => dma2bus_mstnum_dma_p1 ); DMA2BUS_MSTNUM_DMA_PROC : process(Bus2ip_Clk) is begin if Bus2ip_Clk'event and Bus2ip_Clk = '1' then dma2bus_mstnum_dma <= dma2bus_mstnum_dma_p1; end if; end process; ---( Master arbitration and concentration. MASTER_CONCENTRATION: block begin DMA2Bus_MstBusLock <= '0'; -- Bus-lock capability not used. REG_MQ_PROCESS : process (Bus2IP_Clk) is variable dma_sg_sr_pl : std_logic_vector(0 to 3); variable Debug_TEMP : std_logic_vector(0 to C_OPB_AWIDTH-1); variable dma2bus_addr_var : std_logic_vector(DMA2Bus_Addr'range); constant DMA_TO_OPB_DWIDTH_FACTOR : positive := C_OPB_DWIDTH / DMA_DWIDTH; constant DMA_TO_OPB_DWIDTH_FACTOR_BITS : natural := ceil_log2(DMA_TO_OPB_DWIDTH_FACTOR); begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then dma_sg_sr_pl := dma_sel & sg_sel & sr_sel & pl_sel; if Bus2IP_MstLastAck = '1' then dma2bus_addr_var := (others => '0'); DMA2IP_Addr <= (others => '0'); DMA2Bus_MstWrReq <= '0'; DMA2Bus_MstRdReq <= '0'; DMA2Bus_MstBurst <= '0'; DMA2Bus_MstNum <= (others => '0'); --ToDo, include DMA2Bus_MstBE here or, alternatively, --consider if taking out all but WrReq and RdReq --would be adantageous. else --ToDo. May want to use encoded select (regular mux) here. case dma_sg_sr_pl is when "1000" => dma2bus_addr_var := dma2bus_addr_dma; DMA2IP_Addr <= dma2ip_addr_dma; DMA2Bus_MstWrReq <= dma2bus_mstwrreq_dma; DMA2Bus_MstRdReq <= dma2bus_mstrdreq_dma; -- These sampled because they may if dma_sel_d1 = '0' then -- change during the transaction. DMA2Bus_MstBurst <= or_UNSIGNED(UNSIGNED(dma2bus_mstnum_dma( 0 to dma2bus_mstnum_dma'length-2 ))); --True iff dma2bus_mstnum_dma > 1 DMA2Bus_MstNum <= dma2bus_mstnum_dma; end if; DMA2Bus_MstLoc2Loc <= '0'; when "0100" => dma2bus_addr_var := dma2bus_addr_sg; DMA2IP_Addr <= dma2ip_addr_sg; DMA2Bus_MstWrReq <= dma2bus_mstwrreq_sg; DMA2Bus_MstRdReq <= dma2bus_mstrdreq_sg; DMA2Bus_MstBurst <= '0'; DMA2Bus_MstNum <= std_logic_vector(TO_UNSIGNED( 1, DMA2Bus_MstNum'length)); DMA2Bus_MstLoc2Loc <= '0'; when "0010" => dma2bus_addr_var := std_logic_vector(SRAddrFIFO_out(cco)); Debug_TEMP := C_STAT_FIFO_ADDR(cco)( C_STAT_FIFO_ADDR(0)'length-C_OPB_AWIDTH to C_STAT_FIFO_ADDR(0)'length-1 ); DMA2IP_Addr <= Debug_TEMP (C_OPB_AWIDTH - 2 - C_M to C_OPB_AWIDTH - 2 - 1); DMA2Bus_MstWrReq <= dma2bus_mstwrreq_sr; DMA2Bus_MstRdReq <= '0'; DMA2Bus_MstBurst <= '0'; DMA2Bus_MstNum <= (others => '0'); DMA2Bus_MstNum(DMA2Bus_MstNum'right) <= '1'; DMA2Bus_MstLoc2Loc <= '0'; when "0001" => dma2bus_addr_var := C_LEN_FIFO_ADDR(cco)( C_LEN_FIFO_ADDR(0)'length-C_OPB_AWIDTH to C_LEN_FIFO_ADDR(0)'length-1 ); DMA2IP_Addr <= tmp_C_DMA_BASEADDR( tmp_C_DMA_BASEADDR'length - C_M - 2 to tmp_C_DMA_BASEADDR'length - NUM_CHAN_BITS - RPB - 2 - 1 ) & std_logic_vector(TO_UNSIGNED(cco, NUM_CHAN_BITS)) & std_logic_vector(TO_UNSIGNED(r_PLENGTH, RPB)); DMA2Bus_MstWrReq <= dma2bus_mstwrreq_pl; DMA2Bus_MstRdReq <= not dma2bus_mstwrreq_pl; DMA2Bus_MstBurst <= '0'; DMA2Bus_MstNum <= (others => '0'); DMA2Bus_MstNum(DMA2Bus_MstNum'right) <= '1'; DMA2Bus_MstLoc2Loc <= '1'; when others => dma2bus_addr_var := (others => '0'); DMA2IP_Addr <= (others => '0'); DMA2Bus_MstWrReq <= '0'; DMA2Bus_MstRdReq <= '0'; DMA2Bus_MstBurst <= '0'; DMA2Bus_MstNum <= (others => '0'); DMA2Bus_MstNum(DMA2Bus_MstNum'right) <= '1'; DMA2Bus_MstLoc2Loc <= '0'; end case; ------------------------------------------------------------------ -- If DMA_WIDTH = C_OPB_DWIDTH or this master transaction is to -- move DMA data, then enable all byte lanes... ------------------------------------------------------------------ DMA2Bus_MstBE <= (others => '1'); ------------------------------------------------------------------ -- ... otherwise, enable only the 4 byte lanes -- implied by the address. ------------------------------------------------------------------ if DMA_TO_OPB_DWIDTH_FACTOR > 1 and dma_sel = '0' then for i in 0 to DMA_TO_OPB_DWIDTH_FACTOR-1 loop if UNSIGNED(dma2bus_addr_var( C_OPB_AWIDTH - 2 - DMA_TO_OPB_DWIDTH_FACTOR_BITS to C_OPB_AWIDTH - 2 - 1 -- ToDo, perhaps make the 4 and ) -- 2 constants here dependent -- on DMA_DWIDTH ) /= i then DMA2Bus_MstBE(4i to 4(i+1)-1) <= "0000"; end if; end loop; end if; -- end if; DMA2Bus_Addr <= dma2bus_addr_var; end if; -- Bus2IP_Clk'event and Bus2IP_Clk = '1' end process; end block; ---) end, Master arbitration and concentration. --- SRAddrFIFO for each rx pkt or tx pkt channel. SRAddrFIFO_GEN: for i in 0 to LAST_CHAN generate SRAddrFIFO_GEN: if C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate I_SRL_FIFO : SRL_FIFO generic map ( C_DATA_BITS => DMA_DWIDTH, -- ToDo, C_OPB_AWIDTH /= DMA_DWIDTH -- would need some attention in places -- where a data value becomes an address. C_DEPTH => 16 ) port map ( Clk => Bus2IP_Clk, Reset => reset(i), FIFO_Write => wr_SRAddrFIFO(i), Data_In => dma2bus_addr_sg, FIFO_Read => rd_SRAddrFIFO(i), Data_Out => SRAddrFIFO_out(i), FIFO_Full => SRAddrFIFO_full(i), Data_Exists => SRAddrFIFO_nonempty(i), Addr => open ); end generate; -- Tie off outputs for non-existent instances. SRAddrFIFO_TIEOFF_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 generate SRAddrFIFO_out(i) <= (others => '0'); SRAddrFIFO_full(i) <= '0'; SRAddrFIFO_nonempty(i) <= '0'; end generate; end generate; --= end, SRAddrFIFO for each rx pkt or tx pkt channel. ---( DMA state machine. DMA_SM: block type dma_state is ( IDLE, DONECHK, -- Done check. Test for end of DMA operation. XACTION, -- Perform a bus transaction. GET_BDA, HANDLE_SRA, -- If required, save the address of where SR will go. GET_DMACR, GET_SA, GET_DA, GET_LENGTH, GET_PLENGTH, PUT_LENGTH, -- Write the completion LENGTH. PUT_DMASR, -- Write the DMA completion status. LQCHK, PUT_PLENGTH, HALT, A_WRITE_SR, B_WRITE_SR, C_WRITE_SR, MSTNUM_PIPE -- Delay allowing dma2bus_mstnum_dma to get -- through a pipe stage. ); type dma_state_array is array(0 to LAST_CHAN) of dma_state; signal dma_cs : dma_state_array; signal dma_ns : dma_state; signal block_chan_muxing : std_logic; signal dma_sel_ns : std_logic; signal sg_sel_ns : std_logic; signal pl_sel_ns : std_logic; signal sr_sel_ns : std_logic; signal mstr_op_done : std_logic; signal mstr_op_done_ns : std_logic; signal wr_cond, rd_cond : std_logic; -- direction of the mem xfer -- XGR wa F.23 bug signal XGR_tmp : dma_state; begin -- XGR wa F.23 bug XGR_tmp <= dma_cs(cco); DMA_SM_COM_PROCESS: process( dma_cs, dma_active, LENGTH_cco, PLENGTH_cco, cco, rx, tx, WFIFO2DMA_Vacancy, Bus2IP_MstWrAck, Bus2IP_MstRdAck, Mstr_sel_ma, Bus2IP_MstError, Bus2IP_MstTimeOut, Bus2IP_MstLastAck, dest_is_a_fifo, first, no_bda_link, sg_active, sgGo, L_tx, IP2DMA_TxLength_Full, IP2DMA_RxLength_Empty, IP2DMA_TxStatus_Empty, SRAddrFIFO_nonempty, XGR_tmp, -- XGR wa F.23 bug SRAddrFIFO_cco_hasroom, dma_completing, dma2bus_mstnum_dma ) variable incdec : std_logic; variable rx_pkt_complete : std_logic; begin -- Default assignments for dma_ns and state machine outputs. dma_starting <= '0'; dma_completing <= '0'; block_chan_muxing <= '0'; set_L_rx <= '0'; set_DBE <= '0'; set_DBT <= '0'; inc_SA <= '0'; inc_DA <= '0'; dec_LENGTH <= '0'; inc_PLENGTH <= '0'; dec_PLENGTH <= '0'; clr_PLENGTH <= '0'; dma_sel_ns <= '0'; sg_sel_ns <= '0'; pl_sel_ns <= '0'; sr_sel_ns <= '0'; reset_sg_offset <= '0'; inc_sg_offset <= (others => '0'); dma2bus_mstwrreq_sg <= '0'; dma2bus_mstwrreq_sr <= '0'; dma2bus_mstwrreq_pl <= '0'; mstr_op_done_ns <= '0'; update_first <= '0'; wr_SRAddrFIFO <= (others => '0'); rd_SRAddrFIFO <= (others => '0'); is_idle <= (others => '0'); rx_pkt_complete := bo2sl(rx(cco)='1' and (PLENGTH_cco=0)); -- Next state and output logic. --case dma_cs(cco) is case XGR_tmp is when IDLE => is_idle(cco) <= '1'; if (tx(cco) and not IP2DMA_TxStatus_Empty) = '1' or (rx_pkt_complete and SRAddrFIFO_nonempty(cco)) = '1' then sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= A_WRITE_SR; else if sgGo(cco) = '1' then if (not rx(cco) or not IP2DMA_RxLength_Empty or not first(cco) ) = '1' then if (not no_bda_link(cco)) = '1' then sg_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= GET_BDA; elsif (rx(cco) and first(cco)) = '1' then pl_sel_ns <= '1'; block_chan_muxing <= '1'; reset_sg_offset <= '1'; dma_ns <= GET_PLENGTH; else block_chan_muxing <= '1'; -- Optional. reset_sg_offset <= '1'; dma_ns <= HANDLE_SRA; end if; else dma_ns <= IDLE; end if; else if dma_active(cco) = '1' then -- Simple DMA. dma_starting <= '1'; -- dma_ns <= DONECHK; --ToDo, rmv dma_ns <= MSTNUM_PIPE; else dma_ns <= IDLE; end if; end if; end if; when GET_BDA => -- This implementation assumes that the Bus2IP_MstLastAck -- is concurrent with or follows the IP2Bus_WrAck that actually -- writes the PLENGTH register. (An earlier implementation -- assumed the opposite order--allowing the MasterAttachment/ -- SlaveAttachment to do a posted write. When that -- implementation actually experienced the opposite during -- operation, then state GET_BDA's successor state, -- GET_PLENGTH, would respond to the Bus2IP_MstLastAck -- that corresponds to state GET_BDA!) -- State GET_LENGTH has similar considerations. if Bus2IP_MstLastAck = '1' then if (rx(cco) and first(cco)) = '1' then pl_sel_ns <= '1'; block_chan_muxing <= '1'; reset_sg_offset <= '1'; dma_ns <= GET_PLENGTH; else block_chan_muxing <= '1'; -- Optional. reset_sg_offset <= '1'; dma_ns <= HANDLE_SRA; end if; else block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= GET_BDA; end if; when GET_PLENGTH => if Bus2IP_MstLastAck = '1' then block_chan_muxing <= '1'; -- Optional. dma_ns <= HANDLE_SRA; else block_chan_muxing <= '1'; pl_sel_ns <= '1'; dma_ns <= GET_PLENGTH; end if; when HANDLE_SRA => if (tx(cco) and not IP2DMA_TxStatus_Empty) = '1' then sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= C_WRITE_SR; elsif ((rx(cco) or tx(cco)) and first(cco)) = '1' then --ToDo. Does first(cco) imply (rx(cco) or tx(cco))? If so, -- (rx(cco) or tx(cco)) could be removed here. if (SRAddrFIFO_cco_hasroom = '1') then wr_SRAddrFIFO(cco) <= '1'; inc_sg_offset(cco) <= '1'; block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= GET_DMACR; else dma_ns <= HANDLE_SRA; end if; else inc_sg_offset(cco) <= '1'; block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= GET_DMACR; end if; when GET_DMACR => if Bus2IP_MstLastAck = '1' then sg_sel_ns <= '1'; block_chan_muxing <= '1'; inc_sg_offset(cco) <= '1'; dma_ns <= GET_SA; else sg_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= GET_DMACR; end if; when GET_SA => if Bus2IP_MstLastAck = '1' then sg_sel_ns <= '1'; block_chan_muxing <= '1'; inc_sg_offset(cco) <= '1'; dma_ns <= GET_DA; else sg_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= GET_SA; end if; when GET_DA => if Bus2IP_MstLastAck = '1' then sg_sel_ns <= '1'; block_chan_muxing <= '1'; inc_sg_offset(cco) <= '1'; dma_ns <= GET_LENGTH; else sg_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= GET_DA; end if; when GET_LENGTH => if Bus2IP_MstLastAck = '1' then -- See the comment of state GET_ BDA for considerations -- that also apply to this state. The load of the LENGTH -- register needs be complete before proceeding to the -- next state. (A "MstLastAck" indication ahead of the -- completion of a posted write will not work. An earlier -- version had such posted write behavior. In that version, -- this state was not exited until the LENGTH register -- actually loaded; signal load_length(cco) was used.) dma_starting <= '1'; -- dma_ns <= DONECHK; --ToDo, rmv dma_ns <= MSTNUM_PIPE; else block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= GET_LENGTH; end if; when MSTNUM_PIPE => block_chan_muxing <= '1'; dma_ns <= DONECHK; when DONECHK => dma_completing <= bo2sl(LENGTH_cco = 0) or rx_pkt_complete; if (tx(cco) and not IP2DMA_TxStatus_Empty) = '1' then sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= B_WRITE_SR; elsif dma_completing = '1' then set_L_rx <= rx_pkt_complete; if sg_active(cco) = '1' then sg_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= PUT_LENGTH; else dma_ns <= IDLE; end if; elsif -- We go to do a bus transaction when we are not at the normal -- end of a DMA operation and there is not a condition -- that keeps us from proceeding. -- The condition that could keep us from proceeding is that -- we are writing to a FIFO and it doesn't have vacancy -- to (1) accomodate a single transfer in the case there isn't -- enough left to do a burst or, otherwise, to (2) accomodate -- a burst. ( dma_completing = '0' and not ( (dest_is_a_fifo = '1') and ( TO_INTEGER(UNSIGNED(dma2bus_mstnum_dma)) > TO_INTEGER(UNSIGNED(WFIFO2DMA_Vacancy)) ) ) ) then dma_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= XACTION; else -- dma_ns <= DONECHK; --ToDo, rmv dma_ns <= MSTNUM_PIPE; end if; when XACTION => incdec := (Bus2IP_MstWrAck or Bus2IP_MstRdAck) and Mstr_sel_ma; inc_SA <= incdec; inc_DA <= incdec; dec_LENGTH <= incdec; inc_PLENGTH <= incdec and tx(cco); dec_PLENGTH <= incdec and rx(cco); if (Bus2IP_MstError or Bus2IP_MstTimeOut) = '1' then set_DBE <= Bus2IP_MstError; set_DBT <= Bus2IP_MstTimeOut; dma_completing <= '1'; if sg_active(cco) = '1' then dma_ns <= HALT; else dma_ns <= IDLE; end if; elsif (Bus2IP_MstLastAck) = '1' then --block_chan_muxing <= '1'; -- Optional, no blocking for -- find-grain switching -- between channels. -- dma_ns <= DONECHK; --ToDo, rmv dma_ns <= MSTNUM_PIPE; else dma_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= XACTION; end if; when PUT_LENGTH => dma2bus_mstwrreq_sg <= '1'; if Bus2IP_MstLastAck = '1' then block_chan_muxing <= '1'; sg_sel_ns <= '1'; inc_sg_offset(cco) <= '1'; dma_ns <= PUT_DMASR; else block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= PUT_LENGTH; end if; when PUT_DMASR => dma2bus_mstwrreq_sg <= '1'; if Bus2IP_MstLastAck = '1' then inc_sg_offset(cco) <= '1'; dma_ns <= LQCHK; else block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= PUT_DMASR; end if; when LQCHK => update_first <= '1'; if (not tx(cco) or not L_tx(cco)) = '1' then dma_ns <= IDLE; elsif (not IP2DMA_TXLength_Full) = '1' then block_chan_muxing <= '1'; pl_sel_ns <= '1'; dma_ns <= PUT_PLENGTH; else dma_ns <= LQCHK; end if; when PUT_PLENGTH => dma2bus_mstwrreq_pl <= '1'; if Bus2IP_MstLastAck = '1' then clr_PLENGTH <= '1'; dma_ns <= IDLE; else block_chan_muxing <= '1'; pl_sel_ns <= '1'; dma_ns <= PUT_PLENGTH; end if; when HALT => dma_ns <= HALT; when A_WRITE_SR => is_idle(cco) <= '1'; --ToDo. Perhaps can eliminate this sig and drive dma2bus_mstwrreq to '1' when sr_sel dma2bus_mstwrreq_sr <= '1'; if Bus2IP_MstLastAck = '1' then rd_SRAddrFIFO(cco) <= '1'; dma_ns <= IDLE; else sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= A_WRITE_SR; end if; when B_WRITE_SR => dma2bus_mstwrreq_sr <= '1'; if Bus2IP_MstLastAck = '1' then rd_SRAddrFIFO(cco) <= '1'; block_chan_muxing <= '1'; dma_ns <= DONECHK; -- DONECHK okay here as long as -- chan_muxing is blocked leaving this state. else sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= B_WRITE_SR; end if; when C_WRITE_SR => dma2bus_mstwrreq_sr <= '1'; if Bus2IP_MstLastAck = '1' then rd_SRAddrFIFO(cco) <= '1'; block_chan_muxing <= '1'; dma_ns <= HANDLE_SRA; else sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= C_WRITE_SR; end if; end case; end process; DMA_SM_DMA_CS_REG_PROCESS: process(Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if reset(i) = '1' then dma_cs(i) <= IDLE; elsif cco = i then dma_cs(i) <= dma_ns; end if; end if; end loop; end process; DMA_SM_OTHER_REG_PROCESS: process(Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset='1' then dma_sel <= '0'; sg_sel <= '0'; pl_sel <= '0'; sr_sel <= '0'; mstr_op_done <= '0'; cco <= 0; else dma_sel <= dma_sel_ns; sg_sel <= sg_sel_ns; pl_sel <= pl_sel_ns; sr_sel <= sr_sel_ns; mstr_op_done <= mstr_op_done_ns; if block_chan_muxing = '0' then if cco = LAST_CHAN then cco <= 0; else cco <= cco+1; end if; end if; end if; end if; end process; DMA_SEL_D1_PROC: process(Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset='1' then dma_sel_d1 <= '1'; else dma_sel_d1 <= dma_sel; end if; end if; end process; wr_cond <= SLOCAL(cco) and not DLOCAL(cco); rd_cond <= DLOCAL(cco) and not SLOCAL(cco); dma2bus_addr_dma <= std_logic_vector(SA(cco)) when rd_cond = '1' else std_logic_vector(DA(cco)); dma2ip_addr_dma <= std_logic_vector(DA(cco)(DMA_DWIDTH-2-C_M to DMA_DWIDTH-2-1)) when rd_cond = '1' else std_logic_vector(SA(cco)(DMA_DWIDTH-2-C_M to DMA_DWIDTH-2-1)); dma2bus_mstwrreq_dma <= wr_cond; dma2bus_mstrdreq_dma <= rd_cond; -- burst_cond_dma <= bo2sl(C_DMA_ALLOW_BURST) and -- ( (rx(cco) and PLENGTH_ge_BPBT and LENGTH_ge_BPBT) -- or (not rx(cco) and LENGTH_ge_BPBT) -- ); -- Note for burst_cond_dma: We pass up the opportunity to include -- in a burst a last word that has padding and whose padding would -- bring the total to exactly BPBT. This allows a simpler test. -- For example, with BPBT = 32, we use a "length" >= 32 test, and -- we are passing up optimization of the 29, 30 and 31 cases -- in order to have a simpler test. SG_ACTIVE_PROCESS: process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then for i in 0 to LAST_CHAN loop if reset(i) = '1' then sg_active(i) <= '0'; sg_active_d1(i) <= '0'; else sg_active_d1(i) <= sg_active(i); if (SGE(i) and not SGS(i)) = '1' then sg_active(i) <= '1'; elsif is_idle(i) = '1' and ( ( C_DMA_CHAN_TYPE(i) /=2 and C_DMA_CHAN_TYPE(i) /=3 ) or ( SRAddrFIFO_nonempty(i) = '0' and first(i) = '1' ) ) then sg_active(i) <= '0'; end if; end if; end loop; end if; end process; end block; ---) end, DMA state machine. --- SG MQ bundle. SG_SM: block begin dma2bus_addr_sg <= std_logic_vector( BDA(cco)(0 to BDA(cco)'length - 2 - 1) + sg_offset(cco) ) & "00"; dma2ip_addr_sg <= tmp_C_DMA_BASEADDR( tmp_C_DMA_BASEADDR'length - 2 - C_M to tmp_C_DMA_BASEADDR'length - 2 - NUM_CHAN_BITS - RPB - 1 ) & std_logic_vector(TO_UNSIGNED(cco, NUM_CHAN_BITS)) & std_logic_vector(sg_offset(cco)); dma2bus_mstrdreq_sg <= not dma2bus_mstwrreq_sg; end block; --= end, SG MQ bundle. end sim; --)
------------------------------------------------------------------------------- -- $Id: dma_sg_sim.vhd,v 1.8 2003/11/04 20:11:34 ostlerf Exp $ ------------------------------------------------------------------------------- -- dma_sg sim architecture (DMA and scatter gather) ------------------------------------------------------------------------------- -- -- ************************** -- Copyright Xilinx, Inc. -- All rights reserved. -- ************************** -- ------------------------------------------------------------------------------- -- Filename: dma_sg_sim.vhd -- -- Description: See file dma_sg.vhd for a description of this function. -- ------------------------------------------------------------------------------- -- Structure: -- -- dma_sg_sim.vhd -- \| -- \|- dma_sg.vhd -- \| -- \|- dma_sg_pkg.vhd -- \| -- \|- dma_sg_cmp.vhd -- \| -- \|- ctrl_reg.vhd -- \| -- \|- ld_arith_reg.vhd -- \| -- \|- srl_fifo.vhd -- ------------------------------------------------------------------------------- -- Author: Farrell Ostler -- History: -- FLO 12/19/01 -- Header added -- -- FLO 07/17/02 -- ^^^^^^ -- Workaround for XST F.23 bug that affects dma_sg, -- e.g. "XGR_tmp <= dma_cs(cco)" -- ~~~~~~ -- -- FLO 10/22/02 -- ^^^^^^ -- Put a generate statement around the clock divider so that it -- is included only if there is a packet channel with interrupt -- coalescing enabled. -- ~~~~~~ -- -- FLO 01/10/03 -- ^^^^^^ -- Removed earlier XST workaround restriction that status fifo -- entries for packet channels had to be on either channel 0 or 1. -- -- FLO 01/30/03 -- ^^^^^^ -- Added constant DMA_DWIDTH = 32, then made values that depend on the -- fact that DMASG is a 32-bit device to depend on this constant. Most -- of these were previously depending on C_OPB_DWIDTH. But, we want to -- be able to have C_OPB_DWIDTH be 64 bits so that DMA data transfers -- and bursts work on 64-bit buses such as the PLB. -- -- Added constant BPBT_BITS and eliminated some places where BPST was -- assumed to be 4 and BPBT was assumed to be 32. -- ~~~~~~ -- -- FLO 01/31/03 -- ^^^^^^ -- Changed the Generation of DMA2Bus_MstBE so that it handles both -- 32-bit (DMA_DWIDTH) master operations that it performs relative -- to its own registers and DMA operations at the full Bus width, i.e., -- the width given by C_OPB_AWIDTH. -- -- Added assertions to check the validity of some of the assumptions -- upon which the implementation depends. -- ~~~~~~ -- -- FLO 02/01/03 -- ^^^^^^ -- Fixed generation of dma2bus_addr_sg and dma2ip_addr_sg, which were using -- BPST_BITS as a way of getting a constant 2. This constant is 2 only if -- C_OPB_DWIDTH is 32, so the problem appeared with the first attempt -- to use C_OPB_DWIDTH=64. -- ~~~~~~ -- -- FLO 02/02/03 -- ^^^^^^ -- Correction to generation of DMA2Bus_MstBE. -- More corrections of BPST_BITS being used where 2 should have been used. -- ~~~~~~ -- -- FLO 02/02/03 -- ^^^^^^ -- Added signal DMA2Bus_MstLoc2Loc. -- ~~~~~~ -- -- FLO 03/11/03 -- ^^^^^^ -- Changed constant DMA_TO_OPB_DWIDTH_FACTOR_BITS from type positive to natural. -- This was needed to have the C_OPB_DWIDTH = 32 case elaborate properly -- since the value of this constant is zero for this case. -- ~~~~~~ -- -- FLO 05/13/2003 -- ^^^^^^ -- Added instance of module burst_size_calc. This instance calculates the -- size for the next bus transaction based on the maximum transfers -- per burst, the Length remaining (and for Rx channels, the PLength -- remaining). This instance is in place but is not hooked up and used, yet. -- ~~~~~~ -- -- FLO 05/14/2003 -- ^^^^^^ -- The burst_size_calc instance is now integrated. -- This version does bursts of size 16 and does remainders as bursts -- of size 1 to 15. -- ~~~~~~ -- -- FLO 05/15/2003 -- ^^^^^^ -- The HW_SW_COMPATIBILITY component "letter" is rev'ed from a to b. -- The new C_DMA_SHORT_BURST_REMAINDER generic is passed to -- instance of burst_size_calc. -- TPB now comes from a generic (C_DMA_BURST_SIZE). -- Changed to the non-ripple-counter version of the packet-wait timebase -- divider. -- ~~~~~~ -- FLO 09/03/2003 -- ^^^^^^ -- Fixed a bug whereby if PWB=1, PWBR interrupts were generated even -- when UPC=0. Problem was that the ld_arith_reg that was used to -- implement the pw_timer has OP overriding LOAD. The fix was to -- switch to ld_arith_reg2, which allows the override order to be -- reversed. -- ~~~~~~ -- FLO 11/04/2003 -- ^^^^^^ -- - Addressed a slow signal propagation through dma2bus_mstnum by -- inserting a pipestage and adding state MSTNUM_PIPE that matches -- the pipe delay for the state machine. -- - Also, removed some comments now considered obsolete or of marginal value. -- ~~~~~~ ------------------------------------------------------------------------------- -- Naming Conventions: -- active low signals: "_n" -- clock signals: "clk", "clk_div#", "clk_#x" -- reset signals: "rst", "rst_n" -- generics: "C_" -- user defined types: "_TYPE" -- state machine next state: "_ns" -- state machine current state: "_cs" -- combinatorial signals: "_com" -- pipelined or register delay signals: "_d#" -- counter signals: "cnt" -- clock enable signals: "_ce" -- internal version of output port "_i" -- device pins: "_pin" -- ports: - Names begin with Uppercase -- processes: "_PROCESS" -- component instantiations: "<ENTITY_>I_<#\|FUNC> ------------------------------------------------------------------------------- --Possible enhancements -- (11) Error conditions that could be detected in a "debug" mode. -- (a) SGS=1 but not at end of Tx packet. -- (b) SGS=1 but not enough buffer space to finish current Rx packet. -- (c) Underflow or overflow of UPC. -- (d) Exactly one of SLOCAL, DLOCAL set. -- (e) Status value becomes available from the IP but there -- is not a corresponding address saved in the SRAddr FIFO to -- which to write it. -- (25) Handle the case where a Bus2IP_MstError or Bus2IP_MstTimeout -- is the response to a master operation (SG not yet covered). -- (27) Check that UPC, PCT, PWB are excluded when channel is not -- type 2 or 3 or interrupt coalescing is disabled for the channel. library ieee; use ieee.numeric_std.all; -- VisualHDL gives compile errors when using the explicitly named -- use clauses, below. --use ieee.numeric_std.UNSIGNED; --use ieee.numeric_std.TO_UNSIGNED --use ieee.numeric_std.TO_INTEGER; --use ieee.numeric_std."="; --use ieee.numeric_std."+"; --use ieee.numeric_std."-"; --use ieee.numeric_std."<"; --use ieee.numeric_std.RESIZE; library ipif_common_v1_00_d; use ipif_common_v1_00_d.dma_sg_cmp.all; use ipif_common_v1_00_d.dma_sg_pkg.ceil_log2; use ipif_common_v1_00_d.dma_sg_pkg.r_RSTMIR; use ipif_common_v1_00_d.dma_sg_pkg.r_DMACR; use ipif_common_v1_00_d.dma_sg_pkg.r_SA; use ipif_common_v1_00_d.dma_sg_pkg.r_DA; use ipif_common_v1_00_d.dma_sg_pkg.r_LENGTH; use ipif_common_v1_00_d.dma_sg_pkg.r_DMASR; use ipif_common_v1_00_d.dma_sg_pkg.r_BDA; use ipif_common_v1_00_d.dma_sg_pkg.r_SWCR; use ipif_common_v1_00_d.dma_sg_pkg.r_UPC; use ipif_common_v1_00_d.dma_sg_pkg.r_PCT; use ipif_common_v1_00_d.dma_sg_pkg.r_PWB; use ipif_common_v1_00_d.dma_sg_pkg.r_ISR; use ipif_common_v1_00_d.dma_sg_pkg.r_IER; use ipif_common_v1_00_d.dma_sg_pkg.r_PLENGTH; use ipif_common_v1_00_d.dma_sg_pkg.b_BSY; use ipif_common_v1_00_d.dma_sg_pkg.b_SINC; use ipif_common_v1_00_d.dma_sg_pkg.b_DINC; use ipif_common_v1_00_d.dma_sg_pkg.b_SLOCAL; use ipif_common_v1_00_d.dma_sg_pkg.b_DLOCAL; use ipif_common_v1_00_d.dma_sg_pkg.b_SGS; use ipif_common_v1_00_d.dma_sg_pkg.b_L_dmacr; use ipif_common_v1_00_d.dma_sg_pkg.b_SGE; use ipif_common_v1_00_d.dma_sg_pkg.b_DD; use ipif_common_v1_00_d.dma_sg_pkg.b_DE; use ipif_common_v1_00_d.dma_sg_pkg.b_PD; use ipif_common_v1_00_d.dma_sg_pkg.b_PCTR; use ipif_common_v1_00_d.dma_sg_pkg.b_PWBR; use ipif_common_v1_00_d.dma_sg_pkg.b_SGDA; use ipif_common_v1_00_d.dma_sg_pkg.b_SGEND; use ipif_common_v1_00_d.dma_sg_pkg.bo2sl; use ipif_common_v1_00_d.dma_sg_pkg.Div_Stages; use ipif_common_v1_00_d.dma_sg_pkg.UPCB; use ipif_common_v1_00_d.dma_sg_pkg.PWBB; library proc_common_v1_00_b; architecture sim of dma_sg is constant RESET_ACTIVE : std_logic := '1'; constant C_M : natural := C_IPIF_ABUS_WIDTH - 2; -- Bus2IP_Addr and DMA2IP_Addr are word addresses; -- the low-order two bits of the byte address -- are not included. -- ToDo, eventually, this should probably change so that -- they are byte addresses. constant MAJOR_VERSION : natural := 1; constant MINOR_VERSION : natural := 1; constant HW_SW_COMPATIBILITY_REVISION : natural := 1; constant LAST_CHAN : natural := C_DMA_CHAN_TYPE'length - 1; constant NUM_CHANS : natural := LAST_CHAN+1; constant NUM_CHAN_BITS : natural := ceil_log2(NUM_CHANS); -- There are NUM_CHANS channels, numbered 0 .. LAST_CHAN. constant RPB : natural := 4; -- Register-pitch bits = the number of bits -- needed to encode the word addresses -- of all registers (and reserved register -- addresses) for a channel. The number -- of registers and reserved addresses -- per channel is 2^RPB, so the -- word address of a register on one channel -- is separated from the word address of -- of the same register on the next higher -- channel by 2^RPB. constant BPST : natural := C_OPB_DWIDTH / 8; -- Bytes per single transfer on the bus. constant BPST_BITS : natural := ceil_log2(BPST); -- Number of bits needed to encode -- the range 0 to BPST-1. constant BPBT : natural := BPST TPB; -- Bytes per burst transfer on the bus. constant BPBT_BITS : natural := ceil_log2(BPBT); constant RIPPLE_PW_DIVIDER : boolean := false; constant DMA_DWIDTH : natural := 32; -- DMASG is a 32-bit device. -- Registers type DMACR_t is array (natural range <>) of std_logic_vector(b_SINC to b_L_dmacr); signal tmp_C_DMA_BASEADDR : std_logic_vector(0 to 63); -- XST workaround signal DMACR : DMACR_t(0 to LAST_CHAN); type UNSIGNED_t is array (natural range <>) of UNSIGNED(0 to DMA_DWIDTH-1); signal SA : UNSIGNED_t(0 to LAST_CHAN); signal DA : UNSIGNED_t(0 to LAST_CHAN); signal LENGTH : UNSIGNED_t(0 to LAST_CHAN); signal BDA : UNSIGNED_t(0 to LAST_CHAN); -- XGR_E33 type SWCR_t -- XGR_E33 is array (natural range <>) of std_logic_vector(b_SGE to b_SGE); -- XGR_E33 signal SWCR : SWCR_t(0 to LAST_CHAN); signal SWCR : std_logic_vector(0 to LAST_CHAN); type UPC_t is array (natural range <>) of UNSIGNED(DMA_DWIDTH-UPCB to DMA_DWIDTH-1); signal UPC : UPC_t(0 to LAST_CHAN); signal PCT : UPC_t(0 to LAST_CHAN); type PWB_t is array (natural range <>) of UNSIGNED(DMA_DWIDTH-PWBB to DMA_DWIDTH-1); signal PWB : PWB_t(0 to LAST_CHAN); -- Packet Wait Bound signal pw_timer : PWB_t(0 to LAST_CHAN); -- Timer used in generating -- PWBR interrupt. signal PLENGTH : UNSIGNED_t(0 to LAST_CHAN); signal LENGTH_cco : UNSIGNED(0 to DMA_DWIDTH-1); signal PLENGTH_cco : UNSIGNED(0 to DMA_DWIDTH-1); signal rx_cco : std_logic; -- Per-channel reset signal reset : std_logic_vector (0 to LAST_CHAN); signal prog_reset : std_logic_vector (0 to LAST_CHAN); -- Enables signal chan_num : natural; -- The channel addressed by Bus2IP_Addr. signal chan_sel : std_logic_vector (0 to LAST_CHAN); -- Decode of chan_num to one-hot. signal cco : natural range 0 to LAST_CHAN; -- The channel currently operating. signal cco_onehot : std_logic_vector (0 to LAST_CHAN); -- cco decoded to onehot. signal RSTMIR_sel : std_logic; signal DMACR_sel : std_logic; signal SA_sel : std_logic; signal DA_sel : std_logic; signal LENGTH_sel : std_logic; signal dmasr_sel : std_logic; signal BDA_sel : std_logic; signal SWCR_sel : std_logic; signal UPC_sel : std_logic; signal PCT_sel : std_logic; signal PWB_sel : std_logic; signal ISR_sel : std_logic; signal IER_sel : std_logic; signal PLENGTH_sel : std_logic; -- Read back register muxing signal ver_i : std_logic_vector(0 to DMA_DWIDTH-1); signal dcr_i : std_logic_vector(0 to DMA_DWIDTH-1); signal sa_i : std_logic_vector(0 to DMA_DWIDTH-1); signal da_i : std_logic_vector(0 to DMA_DWIDTH-1); signal lnt_i : std_logic_vector(0 to DMA_DWIDTH-1); signal dsr_i : std_logic_vector(0 to DMA_DWIDTH-1); signal bda_i : std_logic_vector(0 to DMA_DWIDTH-1); signal sge_i : std_logic_vector(0 to DMA_DWIDTH-1); signal upc_i : std_logic_vector(0 to DMA_DWIDTH-1); signal pct_i : std_logic_vector(0 to DMA_DWIDTH-1); signal pwb_i : std_logic_vector(0 to DMA_DWIDTH-1); signal isr_i : std_logic_vector(0 to DMA_DWIDTH-1); signal ier_i : std_logic_vector(0 to DMA_DWIDTH-1); signal ple_i : std_logic_vector(0 to DMA_DWIDTH-1); signal adj : UNSIGNED(0 to BPST_BITS); -- Amt to add or subtr when updating -- LENGTH and PLENGTH. signal LENGTH_ge_2BPST: std_logic; -- Used in calculating adj. signal PLENGTH_ge_2BPST: std_logic; -- Used in calculating adj. signal LENGTH_ge_BPBT : std_logic; -- Used for deciding burst transaction. signal PLENGTH_ge_BPBT : std_logic; -- Used for deciding burst transaction. --ToDo. dec_LENGTH, inc_SA and inc_DA can be combined into a common signal. signal dec_LENGTH : std_logic; signal inc_SA : std_logic; signal inc_DA : std_logic; signal dec_PLENGTH : std_logic; signal inc_PLENGTH : std_logic; signal clr_PLENGTH : std_logic; --Register bits and bit fields signal SINC : std_logic_vector(0 to LAST_CHAN); signal DINC : std_logic_vector(0 to LAST_CHAN); signal SLOCAL : std_logic_vector(0 to LAST_CHAN); signal DLOCAL : std_logic_vector(0 to LAST_CHAN); signal SGS : std_logic_vector(0 to LAST_CHAN); signal L_tx : std_logic_vector(0 to LAST_CHAN); signal dma_active : std_logic_vector(0 to LAST_CHAN); signal DBE : std_logic_vector(0 to LAST_CHAN); signal DBT : std_logic_vector(0 to LAST_CHAN); signal L_rx : std_logic_vector(0 to LAST_CHAN); signal L : std_logic_vector(0 to LAST_CHAN); signal SGE : std_logic_vector(0 to LAST_CHAN); signal DD : std_logic_vector(0 to LAST_CHAN); signal DE : std_logic_vector(0 to LAST_CHAN); signal PD : std_logic_vector(0 to LAST_CHAN); signal SGDA : std_logic_vector(0 to LAST_CHAN); signal SGEND : std_logic_vector(0 to LAST_CHAN); signal PCTR : std_logic_vector(0 to LAST_CHAN); signal PWBR : std_logic_vector(0 to LAST_CHAN); signal EDD : std_logic_vector(0 to LAST_CHAN); signal EDE : std_logic_vector(0 to LAST_CHAN); signal EPD : std_logic_vector(0 to LAST_CHAN); signal ESGDA : std_logic_vector(0 to LAST_CHAN); signal ESGEND : std_logic_vector(0 to LAST_CHAN); signal EPCTR : std_logic_vector(0 to LAST_CHAN); signal EPWBR : std_logic_vector(0 to LAST_CHAN); -- Other signals. signal sgGo : std_logic_vector(0 to LAST_CHAN); -- SG is enabled and not at end. signal dma2bus_wrack_i : std_logic; signal dma2bus_rdack_i : std_logic; -- is_idle: The DMA state machine is waiting to start processing the next -- BD or to start a simple DMA operation. signal is_idle : std_logic_vector(0 to LAST_CHAN); -- sg_active: SG has been enabled -- and started and has not yet reached the point where it is stopped -- or disabled and has cleanly finished the work that it started -- while active. Cleanly finishing its work includes, for SG packet -- Rx and SG packet Tx channels, that all packets that were started -- have finished and their status is recorded. signal sg_active : std_logic_vector(0 to LAST_CHAN); signal sg_active_d1 : std_logic_vector(0 to LAST_CHAN); signal dma_completing : std_logic; signal dma_starting : std_logic; signal set_DBE, set_DBT, set_L_rx : std_logic; signal rx, tx : std_logic_vector(0 to LAST_CHAN); -- rx(i) iff channel i is for Rx; tx(i) iff channel i is for Tx signal dest_is_a_fifo : std_logic; -- The DMA destination for cco is a fifo. signal dma_sel : std_logic; -- Master transaction is for dma i/o. signal dma_sel_d1: std_logic; signal sg_sel : std_logic; -- Master transaction is for sg BD i/o. signal pl_sel : std_logic; -- Master transaction is for PLENGTH i/o. signal sr_sel : std_logic; signal dma2bus_addr_dma : std_logic_vector(0 to C_OPB_AWIDTH-1); signal dma2ip_addr_dma : std_logic_vector(0 to C_M-1); signal dma2bus_mstwrreq_dma : std_logic; signal dma2bus_mstrdreq_dma : std_logic; signal dma2bus_mstnum_dma : std_logic_vector(DMA2Bus_MstNum'range); signal dma2bus_mstnum_dma_p1: std_logic_vector(DMA2Bus_MstNum'range); signal burst_cond_dma : std_logic; -- The condition on which the decision -- to burst is based. signal dma2bus_addr_sg : std_logic_vector(0 to C_OPB_AWIDTH-1); signal dma2ip_addr_sg : std_logic_vector(0 to C_M-1); signal dma2bus_mstwrreq_sg : std_logic; signal dma2bus_mstrdreq_sg : std_logic; signal dma2bus_mstwrreq_sr : std_logic; signal dma2bus_mstwrreq_pl : std_logic; signal first : std_logic_vector(0 to LAST_CHAN); -- Channel cco is on its first -- DMA operation of a packet. signal update_first : std_logic; -- Update first for the cco. signal no_bda_link : std_logic_vector(0 to LAST_CHAN); -- The BDA for the corresponding channel has been written while -- not sg_active and an operation under the next sg_active tenure has not -- started. signal load_length : std_logic_vector(0 to LAST_CHAN); signal load_bda : std_logic_vector(0 to LAST_CHAN); signal wr_SRAddrFIFO : std_logic_vector(0 to LAST_CHAN); signal rd_SRAddrFIFO : std_logic_vector(0 to LAST_CHAN); signal SRAddrFIFO_full : std_logic_vector(0 to LAST_CHAN); signal SRAddrFIFO_nonempty : std_logic_vector(0 to LAST_CHAN); type SRAddrFIFO_out_t is array (natural range <>) of std_logic_vector( 0 to C_OPB_AWIDTH-1 ); signal SRAddrFIFO_out : SRAddrFIFO_out_t(0 to LAST_CHAN); type sg_offset_t is array (natural range <>) of UNSIGNED(0 to RPB-1); signal sg_offset : sg_offset_t(0 to LAST_CHAN); signal reset_sg_offset : std_logic; signal inc_sg_offset : std_logic_vector(0 to LAST_CHAN); signal SRAddrFIFO_cco_hasroom : std_logic; signal DMA2Intr_Intr_i : std_logic_vector(0 to LAST_CHAN); signal pw_enable_pulse : std_logic; -- An enable pulse of one Bus2IP_Clk period at the frequency -- of required PWB update. signal pwb_eq_0 : std_logic_vector(0 to LAST_CHAN); signal pw_timer_eq_0 : std_logic_vector(0 to LAST_CHAN); signal upc_eq_0 : std_logic_vector(0 to LAST_CHAN); signal pwb_loaded : std_logic_vector(0 to LAST_CHAN); -- Bitwise "or" of an UNSIGNED value. -- Todo Replace calls by instances of or_muxcy? function or_UNSIGNED(s: UNSIGNED) return std_logic is variable ss : UNSIGNED(0 to s'length-1) := s; variable result: std_logic := '0'; begin for i in s'left to s'right loop result := result or s(i); end loop; return result; end or_UNSIGNED; -- Find the leftmost bit over the LENGTH registers of all channels. function min_length_left(nv: INTEGER_ARRAY_TYPE) return natural is variable largest_width : natural := 0; begin for i in 0 to LAST_CHAN loop if nv(i) > largest_width then largest_width := nv(i); end if; end loop; return DMA_DWIDTH - largest_width; end min_length_left; -- LENGTHS_LEFT gives the minimum left index over all channels. -- It corresponds to the widest LENGTH register required. constant LENGTHS_LEFT : natural := min_length_left(C_DMA_LENGTH_WIDTH); constant LENGTHS_WIDTH : natural := DMA_DWIDTH-LENGTHS_LEFT; function zero_vector(n: natural) return UNSIGNED is variable result : UNSIGNED(0 to n-1) := (others => '0'); begin return result; end zero_vector; function clock_divider_needed(C_DMA_CHAN_TYPE, C_INTR_COALESCE: INTEGER_ARRAY_TYPE) return boolean is begin for i in C_DMA_CHAN_TYPE'range loop if (C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3) and C_INTR_COALESCE(i) = 1 then return true; end if; end loop; return false; end clock_divider_needed; function to_string(n: natural) return STRING is variable s : string(20 downto 1); variable j : natural := 1; variable m : natural := n; type decimal_digit_to_char is array (natural range 0 to 9) of character; constant tab : decimal_digit_to_char := ('0', '1', '2', '3', '4', '5', '6', '7', '8', '9'); begin loop s(j) := tab(m mod 10); m := m / 10; exit when m = 0; j := j+1; end loop; return s(j downto 1); end to_string; function is_power_of_2(n: positive) return boolean is begin if n = 1 then return true; elsif n mod 2 = 1 then return false; else return is_power_of_2(n/2); end if; end is_power_of_2; begin --( architecture ---------------------------------------------------------------------------- -- Checks on parameters and interface signals. ---------------------------------------------------------------------------- assert Bus2IP_Data'length = DMA_DWIDTH report "Bus2IP_Data is a vector of size " & to_string(Bus2IP_Data'length) & ", which is not equal, as required, to " & to_string(DMA_DWIDTH) & "." severity failure; assert is_power_of_2(C_OPB_DWIDTH) report "C_OPB_DWIDTH is " & to_string(C_OPB_DWIDTH) & ", which is not a power of two, as required." severity failure; assert is_power_of_2(DMA_DWIDTH) report "DMA_DWIDTH is " & to_string(DMA_DWIDTH) & ", which is not a power of two, as required." severity failure; assert is_power_of_2(TPB) report "TPB is " & to_string(TPB) & ", which is not a power of two, as required." severity failure; assert C_OPB_DWIDTH >= DMA_DWIDTH report "C_OPB_DWIDTH with value " & to_string(C_OPB_DWIDTH) & " is not greater than or equal to DMA_DWIDTH with value " & to_string(DMA_DWIDTH) & ", as required." severity failure; ---------------------------------------------------------------------------- -- Verify that TPB (Transfers Per Burst) is consistent with the width of -- DMA2Bus_MstNum. ---------------------------------------------------------------------------- assert ceil_log2(TPB) <= DMA2Bus_MstNum'length report "In file opb_ipif_sim.vhd the width of DMA2Bus_MstNum of " & to_string(DMA2Bus_MstNum'length) & " is to small for the DMA burst size of " & to_string(TPB) & " ." severity failure; tmp_C_DMA_BASEADDR <= C_DMA_BASEADDR; -- ToDo, XST workaround --ToDo, handle byte enable signals (probably return error on non BE=1111) -- Assignment of register bits and bit fields SINC_GENERATE: for i in 0 to LAST_CHAN generate SINC(i) <= DMACR(i)(0); end generate; DINC_GENERATE: for i in 0 to LAST_CHAN generate DINC(i) <= DMACR(i)(1); end generate; SLOCAL_GENERATE: for i in 0 to LAST_CHAN generate SLOCAL(i) <= DMACR(i)(2); end generate; DLOCAL_GENERATE: for i in 0 to LAST_CHAN generate DLOCAL(i) <= DMACR(i)(3); end generate; SGS_GENERATE: for i in 0 to LAST_CHAN generate SGS(i) <= '1' when C_DMA_CHAN_TYPE(i) = 0 else DMACR(i)(4); end generate; SGE_GENERATE: for i in 0 to LAST_CHAN generate SGE(i) <= '0' when C_DMA_CHAN_TYPE(i) = 0 else SWCR(i); end generate; SGGO_GENERATE: for i in 0 to LAST_CHAN generate sgGo(i) <= (not SGS(i) and SGE(i)) or -- If pkt SG, then get to a packet boundary. ( not first(i) and bo2sl( C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 ) ); end generate; L_TX_GEN: for i in 0 to LAST_CHAN generate L_tx(i) <= '0' when (C_DMA_CHAN_TYPE(i) /= 2) else DMACR(i)(b_L_dmacr); end generate; --- Address decoding -- channel selects chan_num <= TO_INTEGER(UNSIGNED(Bus2IP_Addr( C_M-RPB-NUM_CHAN_BITS to C_M-RPB-1 ))); CHAN_SELECTION: process (chan_num) begin for i in 0 to LAST_CHAN loop chan_sel(i) <= bo2sl(chan_num = i); end loop; end process; CCO_ONEHOT_PROCESS: process (cco) begin for i in 0 to LAST_CHAN loop cco_onehot(i) <= bo2sl(cco = i); end loop; end process; RX_GEN: for i in 0 to LAST_CHAN generate rx(i) <= bo2sl(C_DMA_CHAN_TYPE(i) = 3) and (sgGo(i) or sg_active(i)); -- A sg rx packet channel can be used for simple DMA when it is not -- operating under SG. end generate; dest_is_a_fifo <= bo2sl( C_DMA_CHAN_TYPE(cco) = 2 and sg_active(cco) = '1'); TX_GEN: for i in 0 to LAST_CHAN generate tx(i) <= bo2sl(C_DMA_CHAN_TYPE(i) = 2) and (sgGo(i) or sg_active(i)); -- A sg tx packet channel can be used for simple DMA when it is not -- operating under SG. end generate; -- register selects RSTMIR_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_RSTMIR, RPB))); DMACR_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_DMACR, RPB))); SA_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_SA, RPB))); DA_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_DA, RPB))); LENGTH_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_LENGTH, RPB))); DMASR_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_DMASR, RPB))); BDA_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_BDA, RPB))); SWCR_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_SWCR, RPB))); UPC_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_UPC, RPB))); PCT_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_PCT, RPB))); PWB_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_PWB, RPB))); ISR_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_ISR, RPB))); IER_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_IER, RPB))); PLENGTH_sel <= bo2sl(Bus2IP_Addr(C_M-RPB to C_M-1) = std_logic_vector(TO_UNSIGNED(r_PLENGTH, RPB))); --= end, Address decoding --- Various logic ---------------------------------------------------------------------------- -- These statements calculate adj. -- Either LENGTH or PLENGTH is the evaluated value, depending on whether the -- channel is rx. If the evaluated value is >= BPST, adj is BPST, which -- means that the low-order two bits may need to be masked. Otherwise, -- adj is the two low-order bits of the evaluated value. ---------------------------------------------------------------------------- LENGTH_ge_BPBT<= or_UNSIGNED( LENGTH_cco(LENGTHS_LEFT to DMA_DWIDTH - BPBT_BITS - 1)); PLENGTH_ge_BPBT<= or_UNSIGNED(PLENGTH_cco(LENGTHS_LEFT to DMA_DWIDTH - BPBT_BITS - 1)); LENGTH_ge_2BPST <= LENGTH_ge_BPBT or or_UNSIGNED( LENGTH_cco(DMA_DWIDTH - BPBT_BITS to DMA_DWIDTH - BPST_BITS - 2)); PLENGTH_ge_2BPST <= PLENGTH_ge_BPBT or or_UNSIGNED(PLENGTH_cco(DMA_DWIDTH - BPBT_BITS to DMA_DWIDTH - BPST_BITS - 2)); ---------------------------------------------------------------------------- -- The next process maintains the global adj value with -- respect to the cco. -- Notes: -- (1) Whenever adj is to be used to update channel n, cco=n must hold -- for both the previous and current cycles. -- (2) adj is sourced from FFs to reduce path time. -- (3) When dec_length is true, we are looking ahead by -- an extra BPST, which is the reason for the >= 2BPST check -- instead of a >= BPST check. -- (4) It is required that BPST be a power of 2. ---------------------------------------------------------------------------- ADJ_PROCESS: process (Bus2IP_Clk) variable len : UNSIGNED(0 to LENGTH_cco'length-1); variable len_ge_2BPST : std_logic; begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if rx(cco)='0' then len := LENGTH_cco; len_ge_2BPST := LENGTH_ge_2BPST; else len := PLENGTH_cco; len_ge_2BPST := PLENGTH_ge_2BPST; end if; adj(0) <= len_ge_2BPST or (not dec_length and len( DMA_DWIDTH - BPST_BITS - 1) ); for i in 1 to BPST_BITS LOOP -- The following expression zeroes non high-order adj bits -- when the next transfer will be BPST, otherwise -- adj becomes what is left to transfer, i.e. the corresponding -- adj bit is taken from the corresponding len bit. adj(i) <= not( len_ge_2BPST or (not dec_length and len( DMA_DWIDTH - BPST_BITS - 1) ) ) and len(DMA_DWIDTH - BPST_BITS + i - 1); end loop; end if; end process; DMA2Bus_Error <= '0'; DMA2Bus_Retry <= '0'; Bus2IP_DMA_Ack <= '0'; DMA2Bus_ToutSup <= '0'; DMA2INTR_GENERATE: for i in 0 to LAST_CHAN generate DMA2Intr_Intr_i(i) <= (DD(i) and EDD(i)) or (DE(i) and EDE(i)) or (PD(i) and EPD(i)) or (PCTR(i) and EPCTR(i)) or (PWBR(i) and EPWBR(i)) or (SGDA(i) and ESGDA(i)) or (SGEND(i) and ESGEND(i)); DMA2Intr_Intr(i) <= DMA2Intr_Intr_i(i); end generate; L_GEN: for i in 0 to LAST_CHAN generate L(i) <= ( (tx(i) and L_tx(i)) or (rx(i) and L_rx(i)) ); end generate; FIRST_PROCESS: process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then for i in 0 to LAST_CHAN loop if reset(i) = '1' then first(i) <= bo2sl(C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3); elsif update_first = '1' and cco = i then first(i) <= L(i); end if; end loop; end if; end process; SG_OFFSET_PROCESS: process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then for i in 0 to LAST_CHAN loop if (reset(i) or (reset_sg_offset and cco_onehot(i))) = '1' then sg_offset(i) <= (others => '0'); elsif inc_sg_offset(i) = '1' then sg_offset(i) <= sg_offset(i) + 1; end if; end loop; end if; end process; SRAddrFIFO_cco_hasroom <= '1' when (C_DMA_CHAN_TYPE(cco) = 2 or C_DMA_CHAN_TYPE(cco) = 3) and SRAddrFIFO_full(cco) = '0' else '0'; --= end, Various logic --- Clock divider. INCLUDE_CLOCK_DIVIDER: if clock_divider_needed(C_DMA_CHAN_TYPE, C_INTR_COALESCE) generate constant num_stages : natural := Div_Stages(base_period => C_CLK_PERIOD_PS, target_period=> C_PACKET_WAIT_UNIT_NS 1000 ); begin -------------------------------------------------------------------------- -- This option implements the packet-wait timebase divider using a -- Q-to-Clk ripple counter. -------------------------------------------------------------------------- GEN_RIPPLE_PW_DIVIDER: if RIPPLE_PW_DIVIDER generate signal divby2to : std_logic_vector(0 to num_stages); signal ripout, ripout_d1, ripout_d2, ripout_d3 : std_logic; begin divby2to(0) <= Bus2IP_Clk; ripout <= divby2to(num_stages); ------------------------------------------------------------------------ -- Clock division via a ripple counter. ------------------------------------------------------------------------ DIVIDE_CLK: for i in 1 to num_stages generate DIV_FF: process(divby2to(i-1), Bus2IP_Reset) begin if Bus2IP_Reset = RESET_ACTIVE then divby2to(i) <= '0'; else if divby2to(i-1)'event and divby2to(i-1) = '1' then divby2to(i) <= not divby2to(i); end if; end if; end process; end generate; ------------------------------------------------------------------------ -- This process syncronizes the output of the ripple counter into -- the Bus2IP_Clk domain and sets up edge detection. ------------------------------------------------------------------------ SYNC_AND_ENABLE: process(Bus2IP_Clk, Bus2IP_Reset) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = RESET_ACTIVE then ripout_d1 <= '0'; ripout_d2 <= '0'; ripout_d3 <= '0'; else ripout_d1 <= divby2to(num_stages); ripout_d2 <= ripout_d1; ripout_d3 <= ripout_d2; end if; end if; end process; ------------------------------------------------------------------------ -- Edge detection gives a one-pulse signal in the Bus2IP_Clk domain. ------------------------------------------------------------------------ pw_enable_pulse <= not ripout_d2 and ripout_d3; end generate GEN_RIPPLE_PW_DIVIDER; -------------------------------------------------------------------------- -- This option implements the packet-wait timebase divider using a -- synchronous counter. -------------------------------------------------------------------------- GEN_SYNC_PW_DIVIDER: if not RIPPLE_PW_DIVIDER generate constant ZERO_NUM_STAGES : std_logic_vector(0 to num_stages-1) := (others => '0'); signal sdivby2to : std_logic_vector(num_stages downto 1); signal sdivby2to_num_stages_d1 : std_logic; begin SYNC_PW_DIVIDER : PROCESS(Bus2IP_Clk, Bus2IP_Reset) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = RESET_ACTIVE then sdivby2to <= (others => '0'); else sdivby2to <= std_logic_vector(UNSIGNED(sdivby2to) + 1); end if; end if; end process; OUPUT_D1: process(Bus2IP_Clk, Bus2IP_Reset) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset = RESET_ACTIVE then sdivby2to_num_stages_d1 <= '0'; else sdivby2to_num_stages_d1 <= sdivby2to(num_stages); end if; end if; end process; pw_enable_pulse <= not sdivby2to(num_stages) and sdivby2to_num_stages_d1; end generate GEN_SYNC_PW_DIVIDER; end generate INCLUDE_CLOCK_DIVIDER; EXCLUDE_CLOCK_DIVIDER: if not clock_divider_needed(C_DMA_CHAN_TYPE, C_INTR_COALESCE) generate pw_enable_pulse <= '0'; end generate EXCLUDE_CLOCK_DIVIDER; --= end, Clock divider. --- Register implementations --------------------------------------------------------------------- -- These processes generate the DMA2Bus_WrAck. --------------------------------------------------------------------- DMA2BUS_WRACK_I_PROCESS: process(Bus2IP_Clk) begin if (Bus2IP_Clk'event and Bus2IP_Clk = '1') then if (Bus2IP_Reset = RESET_ACTIVE) then dma2bus_wrack_i <= '0'; --ToDo The last conjunct probably not needed. elsif ((DMA_WrCE and Bus2IP_WrReq)='1' and dma2bus_wrack_i='0') then dma2bus_wrack_i <= '1'; else dma2bus_wrack_i <= '0'; end if; end if; end process; DMA2Bus_WrAck <= dma2bus_wrack_i; --------------------------------------------------------------------- -- These processes implement the channel reset "register". --------------------------------------------------------------------- PERP_CHANNEL_RESET_GEN: for i in 0 to LAST_CHAN generate prog_reset(i) <= bo2sl( (chan_sel(i) and RSTMIR_sel and dma2bus_wrack_i) = '1' and (Bus2IP_Data(DMA_DWIDTH-4 to DMA_DWIDTH-1)) = "1010" ); reset(i) <= bo2sl(Bus2IP_Reset = RESET_ACTIVE) or prog_reset(i); end generate; --------------------------------------------------------------------- -- This process implements a DMACR register for each channel. --------------------------------------------------------------------- -- DMACR_REG_PROCESS: process (Bus2IP_Clk) -- begin -- for i in 0 to LAST_CHAN loop -- if Bus2IP_Clk'event and Bus2IP_Clk='1' then -- if (reset(i) = RESET_ACTIVE) then -- DMACR(i)(0 to 6) <= "1001000"; -- elsif (chan_sel(i) and DMACR_sel and dma2bus_wrack_i) = '1' then -- DMACR(i)(0 to 6) <= Bus2IP_Data(0 to 6); -- end if; -- end if; -- end loop; -- end process; DMACR_GENERATE: for i in 0 to LAST_CHAN generate I_DMACR: ctrl_reg_0_to_6 -- I_DMACR: entity ctrl_reg(sim) generic map ("1001100") port map ( clk => Bus2IP_Clk, rst => reset(i), chan_sel => chan_sel(i), reg_sel => DMACR_sel, wr_ce => dma2bus_wrack_i, d => Bus2IP_Data(b_SINC to b_L_dmacr), q => DMACR(i)(b_SINC to b_L_dmacr) ); end generate; SWCR_GENERATE: for i in 0 to LAST_CHAN generate I_SWCR: ctrl_reg_0_to_0 generic map ("0") port map ( clk => Bus2IP_Clk, rst => reset(i), chan_sel => chan_sel(i), reg_sel => SWCR_sel, wr_ce => dma2bus_wrack_i, -- XGR_E33 d => Bus2IP_Data(b_SGE to b_SGE), -- XGR_E33 q => SWCR(i)(b_SGE to b_SGE) d => Bus2IP_Data(b_SGE), q => SWCR(i) ); end generate; --r --------------------------------------------------------------------- --r -- This process implements a SA register for each channel. --r --------------------------------------------------------------------- --r SA_REG_PROCESS: process (Bus2IP_Clk) --r begin --r for i in 0 to LAST_CHAN loop --r if Bus2IP_Clk'event and Bus2IP_Clk='1' then --r if (reset(i) = RESET_ACTIVE) then --r SA(i) <= (others => '0'); --r elsif (cco_onehot(i) and SINC(i) and inc_SA) = '1' then --r SA(i) <= SA(i) + BPST; --r elsif (chan_sel(i) and SA_sel and dma2bus_wrack_i) = '1' then --r SA(i) <= UNSIGNED(Bus2IP_Data); --r end if; --r end if; --r end loop; --r end process; --------------------------------------------------------------------- -- The below implements a SA for each channel. --------------------------------------------------------------------- SA_REG_GEN: for i in 0 to LAST_CHAN generate T_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 or C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate -------------------------------------------------------------------- -- XGR WA (OP, LOAD and RST renamed to -- OP_EF, LOAD_EF and RST_EF ... t0111.44) [XST workaround] -------------------------------------------------------------------- signal OP_EF, LOAD_EF, RST_EF : std_logic; signal qslv : std_logic_vector(SA(i)'range); begin -- RST_EF <= reset(i); LOAD_EF <= (chan_sel(i) and SA_sel and dma2bus_wrack_i); OP_EF <= (cco_onehot(i) and SINC(i) and inc_SA); -- I_SA : component ld_arith_reg generic map ( C_ADD_SUB_NOT => true, C_REG_WIDTH => SA(i)'length, C_RESET_VALUE => "00000000000000000000000000000000", C_LD_WIDTH => SA(i)'length, C_LD_OFFSET => 0, C_AD_WIDTH => 1, C_AD_OFFSET => BPST_BITS ) port map ( CK => Bus2IP_Clk, RST => RST_EF, Q => qslv(SA(i)'range), LD => Bus2IP_Data(0 to DMA_DWIDTH-1), AD => "1", LOAD => LOAD_EF, OP => OP_EF ); -- SA(i)(SA(i)'range) <= UNSIGNED(qslv(SA(i)'range)); end generate; end generate; --------------------------------------------------------------------- -- The below implements a DA for each channel. --------------------------------------------------------------------- DA_REG_GEN: for i in 0 to LAST_CHAN generate T_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 or C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate -------------------------------------------------------------------- -- XGR WA (OP, LOAD and RST renamed to -- OP_EF, LOAD_EF and RST_EF ... t0111.44) [XST workaround] -------------------------------------------------------------------- signal OP_EF, LOAD_EF, RST_EF : std_logic; signal qslv : std_logic_vector(DA(i)'range); begin -- RST_EF <= reset(i); LOAD_EF <= (chan_sel(i) and DA_sel and dma2bus_wrack_i); OP_EF <= (cco_onehot(i) and DINC(i) and inc_DA); -- I_DA : component ld_arith_reg generic map ( C_ADD_SUB_NOT => true, C_REG_WIDTH => DA(i)'length, C_RESET_VALUE => "00000000000000000000000000000000", C_LD_WIDTH => DA(i)'length, C_LD_OFFSET => 0, C_AD_WIDTH => 1, C_AD_OFFSET => BPST_BITS ) port map ( CK => Bus2IP_Clk, RST => RST_EF, Q => qslv(DA(i)'range), LD => Bus2IP_Data(0 to DMA_DWIDTH-1), AD => "1", LOAD => LOAD_EF, OP => OP_EF ); -- DA(i)(DA(i)'range) <= UNSIGNED(qslv(DA(i)'range)); end generate; end generate; LOAD_LENGTH_GENERATE: for i in 0 to LAST_CHAN generate load_length(i) <= chan_sel(i) and LENGTH_sel and dma2bus_wrack_i; end generate; LOAD_BDA_GENERATE: for i in 0 to LAST_CHAN generate load_bda(i) <= chan_sel(i) and BDA_sel and dma2bus_wrack_i; end generate; --------------------------------------------------------------------- -- The below implements a LENGTH register of the correct size for -- each channel. --------------------------------------------------------------------- LENGTH_REG_GEN: for i in 0 to LAST_CHAN generate T_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 or C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate -------------------------------------------------------------------- -- XGR WA (OP, LOAD and RST renamed to -- OP_EF, LOAD_EF and RST_EF ... t0111.44) [XST workaround] -------------------------------------------------------------------- signal OP_EF, LOAD_EF, RST_EF : std_logic; signal qslv : std_logic_vector(0 to DMA_DWIDTH-1); begin -- RST_EF <= reset(i) or ((cco_onehot(i) and clr_PLENGTH)); LOAD_EF <= (chan_sel(i) and LENGTH_sel and dma2bus_wrack_i); OP_EF <= (cco_onehot(i) and dec_LENGTH); -- I_LENGTH : component ld_arith_reg generic map ( C_ADD_SUB_NOT => false, C_REG_WIDTH => C_DMA_LENGTH_WIDTH(i), C_RESET_VALUE => "00000000000000000000000000000000", C_LD_WIDTH => C_DMA_LENGTH_WIDTH(i), C_LD_OFFSET => 0, C_AD_WIDTH => adj'length, C_AD_OFFSET => 0 ) port map ( CK => Bus2IP_Clk, RST => RST_EF, Q => qslv(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1), LD => Bus2IP_Data(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1), AD => std_logic_vector(adj), LOAD => LOAD_EF, OP => OP_EF ); -- LENGTH(i)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1) <= unsigned(qslv(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1)); LENGTH(i)(0 to DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i)-1) <= (others => '0'); end generate; end generate; --------------------------------------------------------------------- -- The below implements a PLENGTH register of the correct size for -- each channel that requires one. --------------------------------------------------------------------- PLENGTH_REG_GEN: for i in 0 to LAST_CHAN generate T0or1_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 generate PLENGTH(i) <= (others => '0'); end generate; T2_GEN: if C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate -------------------------------------------------------------------- -- XGR WA (OP, LOAD and RST renamed to -- OP_EF, LOAD_EF and RST_EF ... t0111.44) [XST workaround] -------------------------------------------------------------------- signal OP_EF, LOAD_EF, RST_EF : std_logic; signal qslv : std_logic_vector(0 to DMA_DWIDTH-1); begin -- RST_EF <= reset(i) or ((cco_onehot(i) and clr_PLENGTH)); LOAD_EF <= (chan_sel(i) and PLENGTH_sel and dma2bus_wrack_i); OP_ADD_GEN: if C_DMA_CHAN_TYPE(i) = 2 generate OP_EF <= (cco_onehot(i) and inc_PLENGTH); end generate; OP_SUB_GEN: if C_DMA_CHAN_TYPE(i) = 3 generate OP_EF <= (cco_onehot(i) and dec_PLENGTH); end generate; -- I_PLENGTH : component ld_arith_reg generic map ( C_ADD_SUB_NOT => C_DMA_CHAN_TYPE(i) = 2, C_REG_WIDTH => C_DMA_LENGTH_WIDTH(i), C_RESET_VALUE => "00000000000000000000000000000000", C_LD_WIDTH => C_DMA_LENGTH_WIDTH(i), C_LD_OFFSET => 0, C_AD_WIDTH => adj'length, C_AD_OFFSET => 0 ) port map ( CK => Bus2IP_Clk, RST => RST_EF, Q => qslv(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1), LD => Bus2IP_Data(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1), AD => std_logic_vector(adj), LOAD => LOAD_EF, OP => OP_EF ); -- PLENGTH(i)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1) <= unsigned(qslv(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i) to DMA_DWIDTH-1)); PLENGTH(i)(0 to DMA_DWIDTH-C_DMA_LENGTH_WIDTH(i)-1) <= (others => '0'); end generate; end generate; --------------------------------------------------------------------- -- dma_active bit (set when LENGTH loaded, cleared by dma state machine). --------------------------------------------------------------------- DMA_ACTIVE_BIT_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then dma_active(i) <= '0'; elsif load_length(i) = '1' then dma_active(i) <= '1'; elsif dma_completing = '1' and cco = i then dma_active(i) <= '0'; end if; end if; end loop; end process; --------------------------------------------------------------------- -- This process implements a DMASR register for each channel. -- (note: DMA_BSY and SG_BSY implemented separately.) --------------------------------------------------------------------- DMASR_REG_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then DBE(i) <= '0'; DBT(i) <= '0'; L_rx(i) <= '0'; elsif cco = i then if dma_starting = '1' then DBE(i) <= '0'; DBT(i) <= '0'; L_rx(i) <= '0'; elsif set_DBE = '1' then DBE(i) <= '1'; elsif set_DBT = '1' then DBT(i) <= '1'; elsif set_L_rx= '1' then L_rx(i) <= '1'; end if; end if; end if; end loop; end process; --------------------------------------------------------------------- -- This process implements a BDA register for each channel that -- supports scatter/gather. --------------------------------------------------------------------- BDA_REG_PROCESS: process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk='1' then for i in 0 to LAST_CHAN loop if C_DMA_CHAN_TYPE(i) = 1 or C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 then if (reset(i) = RESET_ACTIVE) then BDA(i) <= ( others => '0'); no_bda_link(i) <= '0'; elsif load_bda(i) = '1' then BDA(i) <= UNSIGNED(Bus2IP_Data); no_bda_link(i) <= not sg_active(i); elsif (cco_onehot(i) and sg_active(i) and not is_idle(i)) = '1' then no_bda_link(i) <= '0'; end if; else no_bda_link(i) <= '0'; end if; end loop; end if; end process; ---------------------------------------------------------------------------- -- The processes below implement the ISR interrupt bits for each channel. ---------------------------------------------------------------------------- DD_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then DD(i) <= '0'; elsif dma_completing = '1' and cco_onehot(i) = '1' then DD(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then DD(i) <= DD(i) xor Bus2IP_Data(b_DD); -- Tog on wr. end if; end if; end loop; end process; DE_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then DE(i) <= '0'; elsif (set_DBE or set_DBT) = '1' and cco_onehot(i) = '1' then DE(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then DE(i) <= DE(i) xor Bus2IP_Data(b_DE); -- Tog on wr. end if; end if; end loop; end process; PD_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then PD(i) <= '0'; elsif rd_SRAddrFIFO(i) = '1' then PD(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then PD(i) <= PD(i) xor Bus2IP_Data(b_PD); -- Tog on wr. end if; end if; end loop; end process; PCTR_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then PCTR(i) <= '0'; elsif (UPC(i) >= PCT(i)) and (PCT(i) /= 0) then PCTR(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then PCTR(i) <= PCTR(i) xor Bus2IP_Data(b_PCTR); -- Tog on wr. end if; end if; end loop; end process; PWBR_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then PWBR(i) <= '0'; elsif C_DMA_CHAN_TYPE(i) > 1 and C_INTR_COALESCE(i) = 1 and (pw_timer_eq_0(i)) = '1' then PWBR(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then PWBR(i) <= PWBR(i) xor Bus2IP_Data(b_PWBR); -- Tog on wr. end if; end if; end loop; end process; SGDA_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then SGDA(i) <= '0'; elsif (not sg_active(i) and sg_active_d1(i) and not SGE(i)) = '1' then SGDA(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then SGDA(i) <= SGDA(i) xor Bus2IP_Data(b_SGDA); -- Tog on wr. end if; end if; end loop; end process; SGDEND_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then SGEND(i) <= '0'; elsif (not sg_active(i) and sg_active_d1(i) and SGS(i)) = '1' then SGEND(i) <= '1'; elsif (chan_sel(i) and ISR_sel and dma2bus_wrack_i) = '1' then SGEND(i) <= SGEND(i) xor Bus2IP_Data(b_SGEND); -- Tog on wr. end if; end if; end loop; end process; ---------------------------------------------------------------------------- -- This process implements the IER for each channel. ---------------------------------------------------------------------------- IER_REG_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then EDD(i) <= '0'; EDE(i) <= '0'; EPD(i) <= '0'; EPCTR(i) <= '0'; EPWBR(i) <= '0'; ESGDA(i) <= '0'; ESGEND(i) <= '0'; elsif (chan_sel(i) and IER_sel and dma2bus_wrack_i) = '1' then EDD(i) <= Bus2IP_Data(b_DD); EDE(i) <= Bus2IP_Data(b_DE); EPD(i) <= Bus2IP_Data(b_PD); EPCTR(i) <= Bus2IP_Data(b_PCTR); EPWBR(i) <= Bus2IP_Data(b_PWBR); ESGDA(i) <= Bus2IP_Data(b_SGDA); ESGEND(i) <= Bus2IP_Data(b_SGEND); end if; end if; end loop; end process; ---------------------------------------------------------------------------- -- This process implements the UPC register for each channel. ---------------------------------------------------------------------------- UPC_REG_PROCESS: process (Bus2IP_Clk) variable add1 : UNSIGNED(DMA_DWIDTH-UPCB to DMA_DWIDTH-1); variable sub1 : natural; begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then add1 := (others => rd_SRAddrFIFO(i)); -- zero or minus 1 if (chan_sel(i) and UPC_sel and dma2bus_wrack_i and Bus2IP_Data(DMA_DWIDTH-1)) = '1' then sub1 := 1; else sub1 := 0; end if; if (reset(i) = RESET_ACTIVE) then UPC(i) <= (others => '0'); else UPC(i) <= (UPC(i) - add1) - sub1; -- This will increment if rd_SRAddrFIFO(i), decrement if -- writing a one in LSB, stay unchanged if both or neither. end if; end if; end loop; end process; ---------------------------------------------------------------------------- -- This process implements the PCT register for each channel. ---------------------------------------------------------------------------- PCT_REG_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then if (reset(i) = RESET_ACTIVE) then PCT(i) <= (others => '0'); elsif (chan_sel(i) and PCT_sel and dma2bus_wrack_i) = '1' then PCT(i) <= UNSIGNED(Bus2IP_Data(DMA_DWIDTH - UPCB to DMA_DWIDTH - 1) ); end if; end if; end loop; end process; ---------------------------------------------------------------------------- -- This process implements the PWB register for each channel. ---------------------------------------------------------------------------- PWB_REG_PROCESS: process (Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk='1' then pwb_loaded(i) <= '0'; if (reset(i) = RESET_ACTIVE) then PWB(i) <= (others => '0'); elsif (chan_sel(i) and PWB_sel and dma2bus_wrack_i) = '1' then PWB(i) <= UNSIGNED(Bus2IP_Data(DMA_DWIDTH - PWBB to DMA_DWIDTH - 1) ); pwb_loaded(i) <= '1'; end if; end if; end loop; end process; PWB_EQ_0_GEN: for i in 0 to LAST_CHAN generate pwb_eq_0(i) <= not or_UNSIGNED(PWB(i)); pw_timer_eq_0(i) <= not or_UNSIGNED(pw_timer(i)); upc_eq_0(i) <= not or_UNSIGNED(UPC(i)); end generate; --------------------------------------------------------------------- -- The below implements a pw_timer register of each channel -- that requires one. --------------------------------------------------------------------- -- XGR issue on generic context LENGTH_cco <= zero_vector(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(0)) & LENGTH(cco)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(0) to DMA_DWIDTH-1); PLENGTH_cco <= zero_vector(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(0)) & PLENGTH(cco)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(0) to DMA_DWIDTH-1); -- XGR PW_TIMER_REG_GEN: for i in 0 to LAST_CHAN generate T0or1_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 generate pw_timer(i) <= (others => '0'); end generate; T2or3_GEN: if C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate -------------------------------------------------------------------- -- XGR WA (OP, LOAD and RST renamed to -- OP_EF, LOAD_EF and RST_EF ... t0111.44) [XST workaround] -------------------------------------------------------------------- signal OPxx, LOADxx_n, RSTxx : std_logic; signal qslv : std_logic_vector(pw_timer(i)'range); constant ALL_ONES : std_logic_vector(0 to pw_timer(i)'length-1) := (others => '1'); begin -- RSTxx <= reset(i) or pwb_eq_0(i); LOADxx_n <= not ( upc_eq_0(i) or DMA2Intr_Intr_i(i) or pw_timer_eq_0(i) or pwb_loaded(i) ); OPxx <= pw_enable_pulse; -- i_pw_timer : component ld_arith_reg2 generic map ( C_ADD_SUB_NOT => false, C_REG_WIDTH => pw_timer(i)'length, C_RESET_VALUE => ALL_ONES, C_LD_WIDTH => pw_timer(i)'length, C_LD_OFFSET => 0, C_AD_WIDTH => 1, C_AD_OFFSET => 0, C_LOAD_OVERRIDES => true ) port map ( CK => Bus2IP_Clk, RST => RSTxx, Q => qslv(pw_timer(i)'range), LD => std_logic_vector(PWB(i)), AD => "1", LOAD_n => LOADxx_n, OP => OPxx ); -- pw_timer(i) <= unsigned(qslv(pw_timer(i)'range)); end generate; end generate; --= end, Register implementations --- Some register values selected by cco. -- XGR LENGTH_cco <= zero_vector(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(cco)) & -- XGR LENGTH(cco)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(cco) to -- XGR DMA_DWIDTH-1); -- XGR PLENGTH_cco <= zero_vector(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(cco)) & -- XGR PLENGTH(cco)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(cco) to -- XGR DMA_DWIDTH-1); --= end, Some register values selected by cco. ---( Register readback --------------------------------------------------------------------- -- This process enables the selected register onto DMA2Bus_Data -- on slave reads. --------------------------------------------------------------------- READ_REGISTER_PROCESS:process (Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk='1' then DMA2Bus_Data(0) <= (ver_i(0) and DMA_RdCE and RSTMIR_sel) or (dcr_i(0) and DMA_RdCE and DMACR_sel) or ( sa_i(0) and DMA_RdCE and SA_sel) or ( da_i(0) and DMA_RdCE and DA_sel) or (lnt_i(0) and DMA_RdCE and LENGTH_sel) or (dsr_i(0) and DMA_RdCE and DMASR_sel) or (bda_i(0) and DMA_RdCE and BDA_sel) or (sge_i(0) and DMA_RdCE and SWCR_sel) or -- (upc_i(0) and DMA_RdCE and UPC_sel) or -- (pct_i(0) and DMA_RdCE and PCT_sel) or -- (pwb_i(0) and DMA_RdCE and PWB_sel) or -- (isr_i(0) and DMA_RdCE and ISR_sel) or -- (ier_i(0) and DMA_RdCE and IER_sel) or (ple_i(0) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(1) <= (ver_i(1) and DMA_RdCE and RSTMIR_sel) or (dcr_i(1) and DMA_RdCE and DMACR_sel) or ( sa_i(1) and DMA_RdCE and SA_sel) or ( da_i(1) and DMA_RdCE and DA_sel) or (lnt_i(1) and DMA_RdCE and LENGTH_sel) or (dsr_i(1) and DMA_RdCE and DMASR_sel) or (bda_i(1) and DMA_RdCE and BDA_sel) or -- (sge_i(1) and DMA_RdCE and SWCR_sel) or -- (upc_i(1) and DMA_RdCE and UPC_sel) or -- (pct_i(1) and DMA_RdCE and PCT_sel) or -- (pwb_i(1) and DMA_RdCE and PWB_sel) or -- (isr_i(1) and DMA_RdCE and ISR_sel) or -- (ier_i(1) and DMA_RdCE and IER_sel) or (ple_i(1) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(2) <= (ver_i(2) and DMA_RdCE and RSTMIR_sel) or (dcr_i(2) and DMA_RdCE and DMACR_sel) or ( sa_i(2) and DMA_RdCE and SA_sel) or ( da_i(2) and DMA_RdCE and DA_sel) or (lnt_i(2) and DMA_RdCE and LENGTH_sel) or (dsr_i(2) and DMA_RdCE and DMASR_sel) or (bda_i(2) and DMA_RdCE and BDA_sel) or -- (sge_i(2) and DMA_RdCE and SWCR_sel) or -- (upc_i(2) and DMA_RdCE and UPC_sel) or -- (pct_i(2) and DMA_RdCE and PCT_sel) or -- (pwb_i(2) and DMA_RdCE and PWB_sel) or -- (isr_i(2) and DMA_RdCE and ISR_sel) or -- (ier_i(2) and DMA_RdCE and IER_sel) or (ple_i(2) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(3) <= (ver_i(3) and DMA_RdCE and RSTMIR_sel) or (dcr_i(3) and DMA_RdCE and DMACR_sel) or ( sa_i(3) and DMA_RdCE and SA_sel) or ( da_i(3) and DMA_RdCE and DA_sel) or (lnt_i(3) and DMA_RdCE and LENGTH_sel) or (dsr_i(3) and DMA_RdCE and DMASR_sel) or (bda_i(3) and DMA_RdCE and BDA_sel) or -- (sge_i(3) and DMA_RdCE and SWCR_sel) or -- (upc_i(3) and DMA_RdCE and UPC_sel) or -- (pct_i(3) and DMA_RdCE and PCT_sel) or -- (pwb_i(3) and DMA_RdCE and PWB_sel) or -- (isr_i(3) and DMA_RdCE and ISR_sel) or -- (ier_i(3) and DMA_RdCE and IER_sel) or (ple_i(3) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(4) <= (ver_i(4) and DMA_RdCE and RSTMIR_sel) or (dcr_i(4) and DMA_RdCE and DMACR_sel) or ( sa_i(4) and DMA_RdCE and SA_sel) or ( da_i(4) and DMA_RdCE and DA_sel) or (lnt_i(4) and DMA_RdCE and LENGTH_sel) or (dsr_i(4) and DMA_RdCE and DMASR_sel) or (bda_i(4) and DMA_RdCE and BDA_sel) or -- (sge_i(4) and DMA_RdCE and SWCR_sel) or -- (upc_i(4) and DMA_RdCE and UPC_sel) or -- (pct_i(4) and DMA_RdCE and PCT_sel) or -- (pwb_i(4) and DMA_RdCE and PWB_sel) or -- (isr_i(4) and DMA_RdCE and ISR_sel) or -- (ier_i(4) and DMA_RdCE and IER_sel) or (ple_i(4) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(5) <= (ver_i(5) and DMA_RdCE and RSTMIR_sel) or (dcr_i(5) and DMA_RdCE and DMACR_sel) or ( sa_i(5) and DMA_RdCE and SA_sel) or ( da_i(5) and DMA_RdCE and DA_sel) or (lnt_i(5) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(5) and DMA_RdCE and DMASR_sel) or (bda_i(5) and DMA_RdCE and BDA_sel) or -- (sge_i(5) and DMA_RdCE and SWCR_sel) or -- (upc_i(5) and DMA_RdCE and UPC_sel) or -- (pct_i(5) and DMA_RdCE and PCT_sel) or -- (pwb_i(5) and DMA_RdCE and PWB_sel) or -- (isr_i(5) and DMA_RdCE and ISR_sel) or -- (ier_i(5) and DMA_RdCE and IER_sel) or (ple_i(5) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(6) <= (ver_i(6) and DMA_RdCE and RSTMIR_sel) or (dcr_i(6) and DMA_RdCE and DMACR_sel) or ( sa_i(6) and DMA_RdCE and SA_sel) or ( da_i(6) and DMA_RdCE and DA_sel) or (lnt_i(6) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(6) and DMA_RdCE and DMASR_sel) or (bda_i(6) and DMA_RdCE and BDA_sel) or -- (sge_i(6) and DMA_RdCE and SWCR_sel) or -- (upc_i(6) and DMA_RdCE and UPC_sel) or -- (pct_i(6) and DMA_RdCE and PCT_sel) or -- (pwb_i(6) and DMA_RdCE and PWB_sel) or -- (isr_i(6) and DMA_RdCE and ISR_sel) or -- (ier_i(6) and DMA_RdCE and IER_sel) or (ple_i(6) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(7) <= (ver_i(7) and DMA_RdCE and RSTMIR_sel) or (dcr_i(7) and DMA_RdCE and DMACR_sel) or ( sa_i(7) and DMA_RdCE and SA_sel) or ( da_i(7) and DMA_RdCE and DA_sel) or (lnt_i(7) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(7) and DMA_RdCE and DMASR_sel) or (bda_i(7) and DMA_RdCE and BDA_sel) or -- (sge_i(7) and DMA_RdCE and SWCR_sel) or -- (upc_i(7) and DMA_RdCE and UPC_sel) or -- (pct_i(7) and DMA_RdCE and PCT_sel) or -- (pwb_i(7) and DMA_RdCE and PWB_sel) or -- (isr_i(7) and DMA_RdCE and ISR_sel) or -- (ier_i(7) and DMA_RdCE and IER_sel) or (ple_i(7) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(8) <= (ver_i(8) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(8) and DMA_RdCE and DMACR_sel) or ( sa_i(8) and DMA_RdCE and SA_sel) or ( da_i(8) and DMA_RdCE and DA_sel) or (lnt_i(8) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(8) and DMA_RdCE and DMASR_sel) or (bda_i(8) and DMA_RdCE and BDA_sel) or -- (sge_i(8) and DMA_RdCE and SWCR_sel) or -- (upc_i(8) and DMA_RdCE and UPC_sel) or -- (pct_i(8) and DMA_RdCE and PCT_sel) or -- (pwb_i(8) and DMA_RdCE and PWB_sel) or -- (isr_i(8) and DMA_RdCE and ISR_sel) or -- (ier_i(8) and DMA_RdCE and IER_sel) or (ple_i(8) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(9) <= (ver_i(9) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(9) and DMA_RdCE and DMACR_sel) or ( sa_i(9) and DMA_RdCE and SA_sel) or ( da_i(9) and DMA_RdCE and DA_sel) or (lnt_i(9) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(9) and DMA_RdCE and DMASR_sel) or (bda_i(9) and DMA_RdCE and BDA_sel) or -- (sge_i(9) and DMA_RdCE and SWCR_sel) or -- (upc_i(9) and DMA_RdCE and UPC_sel) or -- (pct_i(9) and DMA_RdCE and PCT_sel) or -- (pwb_i(9) and DMA_RdCE and PWB_sel) or -- (isr_i(9) and DMA_RdCE and ISR_sel) or -- (ier_i(9) and DMA_RdCE and IER_sel) or (ple_i(9) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(10) <= (ver_i(10) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(10) and DMA_RdCE and DMACR_sel) or ( sa_i(10) and DMA_RdCE and SA_sel) or ( da_i(10) and DMA_RdCE and DA_sel) or (lnt_i(10) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(10) and DMA_RdCE and DMASR_sel) or (bda_i(10) and DMA_RdCE and BDA_sel) or -- (sge_i(10) and DMA_RdCE and SWCR_sel) or -- (upc_i(10) and DMA_RdCE and UPC_sel) or -- (pct_i(10) and DMA_RdCE and PCT_sel) or -- (pwb_i(10) and DMA_RdCE and PWB_sel) or -- (isr_i(10) and DMA_RdCE and ISR_sel) or -- (ier_i(10) and DMA_RdCE and IER_sel) or (ple_i(10) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(11) <= (ver_i(11) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(11) and DMA_RdCE and DMACR_sel) or ( sa_i(11) and DMA_RdCE and SA_sel) or ( da_i(11) and DMA_RdCE and DA_sel) or (lnt_i(11) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(11) and DMA_RdCE and DMASR_sel) or (bda_i(11) and DMA_RdCE and BDA_sel) or -- (sge_i(11) and DMA_RdCE and SWCR_sel) or -- (upc_i(11) and DMA_RdCE and UPC_sel) or -- (pct_i(11) and DMA_RdCE and PCT_sel) or -- (pwb_i(11) and DMA_RdCE and PWB_sel) or -- (isr_i(11) and DMA_RdCE and ISR_sel) or -- (ier_i(11) and DMA_RdCE and IER_sel) or (ple_i(11) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(12) <= (ver_i(12) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(12) and DMA_RdCE and DMACR_sel) or ( sa_i(12) and DMA_RdCE and SA_sel) or ( da_i(12) and DMA_RdCE and DA_sel) or (lnt_i(12) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(12) and DMA_RdCE and DMASR_sel) or (bda_i(12) and DMA_RdCE and BDA_sel) or -- (sge_i(12) and DMA_RdCE and SWCR_sel) or -- (upc_i(12) and DMA_RdCE and UPC_sel) or -- (pct_i(12) and DMA_RdCE and PCT_sel) or -- (pwb_i(12) and DMA_RdCE and PWB_sel) or -- (isr_i(12) and DMA_RdCE and ISR_sel) or -- (ier_i(12) and DMA_RdCE and IER_sel) or (ple_i(12) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(13) <= (ver_i(13) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(13) and DMA_RdCE and DMACR_sel) or ( sa_i(13) and DMA_RdCE and SA_sel) or ( da_i(13) and DMA_RdCE and DA_sel) or (lnt_i(13) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(13) and DMA_RdCE and DMASR_sel) or (bda_i(13) and DMA_RdCE and BDA_sel) or -- (sge_i(13) and DMA_RdCE and SWCR_sel) or -- (upc_i(13) and DMA_RdCE and UPC_sel) or -- (pct_i(13) and DMA_RdCE and PCT_sel) or -- (pwb_i(13) and DMA_RdCE and PWB_sel) or -- (isr_i(13) and DMA_RdCE and ISR_sel) or -- (ier_i(13) and DMA_RdCE and IER_sel) or (ple_i(13) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(14) <= (ver_i(14) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(14) and DMA_RdCE and DMACR_sel) or ( sa_i(14) and DMA_RdCE and SA_sel) or ( da_i(14) and DMA_RdCE and DA_sel) or (lnt_i(14) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(14) and DMA_RdCE and DMASR_sel) or (bda_i(14) and DMA_RdCE and BDA_sel) or -- (sge_i(14) and DMA_RdCE and SWCR_sel) or -- (upc_i(14) and DMA_RdCE and UPC_sel) or -- (pct_i(14) and DMA_RdCE and PCT_sel) or -- (pwb_i(14) and DMA_RdCE and PWB_sel) or -- (isr_i(14) and DMA_RdCE and ISR_sel) or -- (ier_i(14) and DMA_RdCE and IER_sel) or (ple_i(14) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(15) <= (ver_i(15) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(15) and DMA_RdCE and DMACR_sel) or ( sa_i(15) and DMA_RdCE and SA_sel) or ( da_i(15) and DMA_RdCE and DA_sel) or (lnt_i(15) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(15) and DMA_RdCE and DMASR_sel) or (bda_i(15) and DMA_RdCE and BDA_sel) or -- (sge_i(15) and DMA_RdCE and SWCR_sel) or -- (upc_i(15) and DMA_RdCE and UPC_sel) or -- (pct_i(15) and DMA_RdCE and PCT_sel) or -- (pwb_i(15) and DMA_RdCE and PWB_sel) or -- (isr_i(15) and DMA_RdCE and ISR_sel) or -- (ier_i(15) and DMA_RdCE and IER_sel) or (ple_i(15) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(16) <= (ver_i(16) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(16) and DMA_RdCE and DMACR_sel) or ( sa_i(16) and DMA_RdCE and SA_sel) or ( da_i(16) and DMA_RdCE and DA_sel) or (lnt_i(16) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(16) and DMA_RdCE and DMASR_sel) or (bda_i(16) and DMA_RdCE and BDA_sel) or -- (sge_i(16) and DMA_RdCE and SWCR_sel) or -- (upc_i(16) and DMA_RdCE and UPC_sel) or -- (pct_i(16) and DMA_RdCE and PCT_sel) or -- (pwb_i(16) and DMA_RdCE and PWB_sel) or -- (isr_i(16) and DMA_RdCE and ISR_sel) or -- (ier_i(16) and DMA_RdCE and IER_sel) or (ple_i(16) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(17) <= (ver_i(17) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(17) and DMA_RdCE and DMACR_sel) or ( sa_i(17) and DMA_RdCE and SA_sel) or ( da_i(17) and DMA_RdCE and DA_sel) or (lnt_i(17) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(17) and DMA_RdCE and DMASR_sel) or (bda_i(17) and DMA_RdCE and BDA_sel) or -- (sge_i(17) and DMA_RdCE and SWCR_sel) or -- (upc_i(17) and DMA_RdCE and UPC_sel) or -- (pct_i(17) and DMA_RdCE and PCT_sel) or -- (pwb_i(17) and DMA_RdCE and PWB_sel) or -- (isr_i(17) and DMA_RdCE and ISR_sel) or -- (ier_i(17) and DMA_RdCE and IER_sel) or (ple_i(17) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(18) <= (ver_i(18) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(18) and DMA_RdCE and DMACR_sel) or ( sa_i(18) and DMA_RdCE and SA_sel) or ( da_i(18) and DMA_RdCE and DA_sel) or (lnt_i(18) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(18) and DMA_RdCE and DMASR_sel) or (bda_i(18) and DMA_RdCE and BDA_sel) or -- (sge_i(18) and DMA_RdCE and SWCR_sel) or -- (upc_i(18) and DMA_RdCE and UPC_sel) or -- (pct_i(18) and DMA_RdCE and PCT_sel) or -- (pwb_i(18) and DMA_RdCE and PWB_sel) or -- (isr_i(18) and DMA_RdCE and ISR_sel) or -- (ier_i(18) and DMA_RdCE and IER_sel) or (ple_i(18) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(19) <= (ver_i(19) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(19) and DMA_RdCE and DMACR_sel) or ( sa_i(19) and DMA_RdCE and SA_sel) or ( da_i(19) and DMA_RdCE and DA_sel) or (lnt_i(19) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(19) and DMA_RdCE and DMASR_sel) or (bda_i(19) and DMA_RdCE and BDA_sel) or -- (sge_i(19) and DMA_RdCE and SWCR_sel) or -- (upc_i(19) and DMA_RdCE and UPC_sel) or -- (pct_i(19) and DMA_RdCE and PCT_sel) or -- (pwb_i(19) and DMA_RdCE and PWB_sel) or -- (isr_i(19) and DMA_RdCE and ISR_sel) or -- (ier_i(19) and DMA_RdCE and IER_sel) or (ple_i(19) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(20) <= (ver_i(20) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(20) and DMA_RdCE and DMACR_sel) or ( sa_i(20) and DMA_RdCE and SA_sel) or ( da_i(20) and DMA_RdCE and DA_sel) or (lnt_i(20) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(20) and DMA_RdCE and DMASR_sel) or (bda_i(20) and DMA_RdCE and BDA_sel) or -- (sge_i(20) and DMA_RdCE and SWCR_sel) or -- (upc_i(20) and DMA_RdCE and UPC_sel) or -- (pct_i(20) and DMA_RdCE and PCT_sel) or -- (pwb_i(20) and DMA_RdCE and PWB_sel) or -- (isr_i(20) and DMA_RdCE and ISR_sel) or -- (ier_i(20) and DMA_RdCE and IER_sel) or (ple_i(20) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(21) <= (ver_i(21) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(21) and DMA_RdCE and DMACR_sel) or ( sa_i(21) and DMA_RdCE and SA_sel) or ( da_i(21) and DMA_RdCE and DA_sel) or (lnt_i(21) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(21) and DMA_RdCE and DMASR_sel) or (bda_i(21) and DMA_RdCE and BDA_sel) or -- (sge_i(21) and DMA_RdCE and SWCR_sel) or -- (upc_i(21) and DMA_RdCE and UPC_sel) or -- (pct_i(21) and DMA_RdCE and PCT_sel) or -- (pwb_i(21) and DMA_RdCE and PWB_sel) or -- (isr_i(21) and DMA_RdCE and ISR_sel) or -- (ier_i(21) and DMA_RdCE and IER_sel) or (ple_i(21) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(22) <= (ver_i(22) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(22) and DMA_RdCE and DMACR_sel) or ( sa_i(22) and DMA_RdCE and SA_sel) or ( da_i(22) and DMA_RdCE and DA_sel) or (lnt_i(22) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(22) and DMA_RdCE and DMASR_sel) or (bda_i(22) and DMA_RdCE and BDA_sel) or -- (sge_i(22) and DMA_RdCE and SWCR_sel) or (upc_i(22) and DMA_RdCE and UPC_sel) or (pct_i(22) and DMA_RdCE and PCT_sel) or (pwb_i(22) and DMA_RdCE and PWB_sel) or -- (isr_i(22) and DMA_RdCE and ISR_sel) or -- (ier_i(22) and DMA_RdCE and IER_sel) or (ple_i(22) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(23) <= (ver_i(23) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(23) and DMA_RdCE and DMACR_sel) or ( sa_i(23) and DMA_RdCE and SA_sel) or ( da_i(23) and DMA_RdCE and DA_sel) or (lnt_i(23) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(23) and DMA_RdCE and DMASR_sel) or (bda_i(23) and DMA_RdCE and BDA_sel) or -- (sge_i(23) and DMA_RdCE and SWCR_sel) or (upc_i(23) and DMA_RdCE and UPC_sel) or (pct_i(23) and DMA_RdCE and PCT_sel) or (pwb_i(23) and DMA_RdCE and PWB_sel) or -- (isr_i(23) and DMA_RdCE and ISR_sel) or -- (ier_i(23) and DMA_RdCE and IER_sel) or (ple_i(23) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(24) <= (ver_i(24) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(24) and DMA_RdCE and DMACR_sel) or ( sa_i(24) and DMA_RdCE and SA_sel) or ( da_i(24) and DMA_RdCE and DA_sel) or (lnt_i(24) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(24) and DMA_RdCE and DMASR_sel) or (bda_i(24) and DMA_RdCE and BDA_sel) or -- (sge_i(24) and DMA_RdCE and SWCR_sel) or (upc_i(24) and DMA_RdCE and UPC_sel) or (pct_i(24) and DMA_RdCE and PCT_sel) or (pwb_i(24) and DMA_RdCE and PWB_sel) or (isr_i(24) and DMA_RdCE and ISR_sel) or (ier_i(24) and DMA_RdCE and IER_sel) or (ple_i(24) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(25) <= (ver_i(25) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(25) and DMA_RdCE and DMACR_sel) or ( sa_i(25) and DMA_RdCE and SA_sel) or ( da_i(25) and DMA_RdCE and DA_sel) or (lnt_i(25) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(25) and DMA_RdCE and DMASR_sel) or (bda_i(25) and DMA_RdCE and BDA_sel) or -- (sge_i(25) and DMA_RdCE and SWCR_sel) or (upc_i(25) and DMA_RdCE and UPC_sel) or (pct_i(25) and DMA_RdCE and PCT_sel) or (pwb_i(25) and DMA_RdCE and PWB_sel) or (isr_i(25) and DMA_RdCE and ISR_sel) or (ier_i(25) and DMA_RdCE and IER_sel) or (ple_i(25) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(26) <= (ver_i(26) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(26) and DMA_RdCE and DMACR_sel) or ( sa_i(26) and DMA_RdCE and SA_sel) or ( da_i(26) and DMA_RdCE and DA_sel) or (lnt_i(26) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(26) and DMA_RdCE and DMASR_sel) or (bda_i(26) and DMA_RdCE and BDA_sel) or -- (sge_i(26) and DMA_RdCE and SWCR_sel) or (upc_i(26) and DMA_RdCE and UPC_sel) or (pct_i(26) and DMA_RdCE and PCT_sel) or (pwb_i(26) and DMA_RdCE and PWB_sel) or (isr_i(26) and DMA_RdCE and ISR_sel) or (ier_i(26) and DMA_RdCE and IER_sel) or (ple_i(26) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(27) <= (ver_i(27) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(27) and DMA_RdCE and DMACR_sel) or ( sa_i(27) and DMA_RdCE and SA_sel) or ( da_i(27) and DMA_RdCE and DA_sel) or (lnt_i(27) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(27) and DMA_RdCE and DMASR_sel) or (bda_i(27) and DMA_RdCE and BDA_sel) or -- (sge_i(27) and DMA_RdCE and SWCR_sel) or (upc_i(27) and DMA_RdCE and UPC_sel) or (pct_i(27) and DMA_RdCE and PCT_sel) or (pwb_i(27) and DMA_RdCE and PWB_sel) or (isr_i(27) and DMA_RdCE and ISR_sel) or (ier_i(27) and DMA_RdCE and IER_sel) or (ple_i(27) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(28) <= (ver_i(28) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(28) and DMA_RdCE and DMACR_sel) or ( sa_i(28) and DMA_RdCE and SA_sel) or ( da_i(28) and DMA_RdCE and DA_sel) or (lnt_i(28) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(28) and DMA_RdCE and DMASR_sel) or (bda_i(28) and DMA_RdCE and BDA_sel) or -- (sge_i(28) and DMA_RdCE and SWCR_sel) or (upc_i(28) and DMA_RdCE and UPC_sel) or (pct_i(28) and DMA_RdCE and PCT_sel) or (pwb_i(28) and DMA_RdCE and PWB_sel) or (isr_i(28) and DMA_RdCE and ISR_sel) or (ier_i(28) and DMA_RdCE and IER_sel) or (ple_i(28) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(29) <= (ver_i(29) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(29) and DMA_RdCE and DMACR_sel) or ( sa_i(29) and DMA_RdCE and SA_sel) or ( da_i(29) and DMA_RdCE and DA_sel) or (lnt_i(29) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(29) and DMA_RdCE and DMASR_sel) or (bda_i(29) and DMA_RdCE and BDA_sel) or -- (sge_i(29) and DMA_RdCE and SWCR_sel) or (upc_i(29) and DMA_RdCE and UPC_sel) or (pct_i(29) and DMA_RdCE and PCT_sel) or (pwb_i(29) and DMA_RdCE and PWB_sel) or (isr_i(29) and DMA_RdCE and ISR_sel) or (ier_i(29) and DMA_RdCE and IER_sel) or (ple_i(29) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(30) <= (ver_i(30) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(30) and DMA_RdCE and DMACR_sel) or ( sa_i(30) and DMA_RdCE and SA_sel) or ( da_i(30) and DMA_RdCE and DA_sel) or (lnt_i(30) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(30) and DMA_RdCE and DMASR_sel) or (bda_i(30) and DMA_RdCE and BDA_sel) or -- (sge_i(30) and DMA_RdCE and SWCR_sel) or (upc_i(30) and DMA_RdCE and UPC_sel) or (pct_i(30) and DMA_RdCE and PCT_sel) or (pwb_i(30) and DMA_RdCE and PWB_sel) or (isr_i(30) and DMA_RdCE and ISR_sel) or (ier_i(30) and DMA_RdCE and IER_sel) or (ple_i(30) and DMA_RdCE and PLENGTH_sel); DMA2Bus_Data(31) <= (ver_i(31) and DMA_RdCE and RSTMIR_sel) or -- (dcr_i(31) and DMA_RdCE and DMACR_sel) or ( sa_i(31) and DMA_RdCE and SA_sel) or ( da_i(31) and DMA_RdCE and DA_sel) or (lnt_i(31) and DMA_RdCE and LENGTH_sel) or -- (dsr_i(31) and DMA_RdCE and DMASR_sel) or (bda_i(31) and DMA_RdCE and BDA_sel) or -- (sge_i(31) and DMA_RdCE and SWCR_sel) or (upc_i(31) and DMA_RdCE and UPC_sel) or (pct_i(31) and DMA_RdCE and PCT_sel) or (pwb_i(31) and DMA_RdCE and PWB_sel) or (isr_i(31) and DMA_RdCE and ISR_sel) or (ier_i(31) and DMA_RdCE and IER_sel) or (ple_i(31) and DMA_RdCE and PLENGTH_sel); end if; end process; -- Module Identification Register 0 - 31 used ver_i <= std_logic_vector(TO_UNSIGNED(MAJOR_VERSION , 4)) & std_logic_vector(TO_UNSIGNED(MINOR_VERSION , 7)) & std_logic_vector(TO_UNSIGNED(HW_SW_COMPATIBILITY_REVISION, 5)) & std_logic_vector(TO_UNSIGNED(C_DEV_BLK_ID, 8)) & std_logic_vector(TO_UNSIGNED(C_DMA_CHAN_TYPE(chan_num)+4, 8)); -- DMA Control Register 0 - 7 used dcr_i <= DMACR(chan_num) & "0000000000000000000000000"; -- Source Address 0 - 31 used sa_i <= std_logic_vector(SA(chan_num)); -- Destination Address 0 - 31 used da_i <= std_logic_vector(DA(chan_num)); -- DMA Length 0 - 31 used -- lnt_i <= std_logic_vector(RESIZE(LENGTH(chan_num)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(chan_num) to -- DMA_DWIDTH-1),DMA_DWIDTH)); lnt_i <= std_logic_vector(RESIZE(LENGTH(chan_num)(LENGTHS_LEFT to DMA_DWIDTH-1),DMA_DWIDTH)); -- DMA Status Register 0 - 3 used dsr_i <= dma_active(chan_num) & DBE(chan_num) & DBT(chan_num) & L(chan_num) & sg_active(chan_num) & "000000000000000000000000000"; -- Buffer Descriptor Address 0 - 31 used bda_i <= std_logic_vector(BDA(chan_num)); -- Software Control Register 0 - 0 used sge_i <= SGE(chan_num) & "0000000000000000000000000000000"; -- Unserviced Packet Count 22 - 31 used upc_i <= std_logic_vector(RESIZE(UPC(chan_num)(DMA_DWIDTH - UPCB to DMA_DWIDTH - 1),32)); -- Packet Count Threshold 22 - 31 used pct_i <= std_logic_vector(RESIZE(PCT(chan_num)(DMA_DWIDTH - UPCB to DMA_DWIDTH - 1),DMA_DWIDTH)); -- Packet Wait Bound 22 - 31 used pwb_i <= std_logic_vector(RESIZE(PWB(chan_num)(DMA_DWIDTH - PWBB to DMA_DWIDTH - 1),DMA_DWIDTH)); -- Interrupt Status Register 24 - 31 used isr_i <= "0000000000000000000000000" & SGEND(chan_num) & SGDA(chan_num) & PWBR(chan_num) & PCTR(chan_num) & PD(chan_num) & DE(chan_num) & DD(chan_num); -- Interrupt Enable Register 24 - 31 used ier_i <= "0000000000000000000000000" & ESGEND(chan_num) & ESGDA(chan_num) & EPWBR(chan_num) & EPCTR(chan_num) & EPD(chan_num) & EDE(chan_num) & EDD(chan_num); -- ple_i <= std_logic_vector(RESIZE(PLENGTH(chan_num)(DMA_DWIDTH-C_DMA_LENGTH_WIDTH(chan_num) to -- DMA_DWIDTH-1),DMA_DWIDTH)); ple_i <= std_logic_vector(RESIZE(PLENGTH(chan_num)(LENGTHS_LEFT to DMA_DWIDTH-1),DMA_DWIDTH)); --p DMA2Bus_Data <= --p --p std_logic_vector(TO_UNSIGNED(MAJOR_VERSION , 4)) & --p --p std_logic_vector(TO_UNSIGNED(MINOR_VERSION , 7)) & --p --p std_logic_vector(TO_UNSIGNED(HW_SW_COMPATIBILITY_REVISION, 5)) & --p --p std_logic_vector(TO_UNSIGNED(C_DEV_BLK_ID, 8)) & --p --p std_logic_vector(TO_UNSIGNED(C_DMA_CHAN_TYPE(chan_num)+4, 8)) --p --p when (RSTMIR_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p DMACR(chan_num) --p --p & "0000000000000000000000000" when ( DMACR_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector(SA(chan_num)) when ( SA_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector(DA(chan_num)) when ( DA_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector( --p --p RESIZE( --p --p LENGTH(chan_num)( --p --p DMA_DWIDTH-C_DMA_LENGTH_WIDTH(chan_num) to --p DMA_DWIDTH-1), --p --p DMA_DWIDTH --p --p ) --p --p ) when (LENGTH_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p dma_active(chan_num) -- DMA_BSY --p --p & DBE(chan_num) --p --p & DBT(chan_num) --p --p & L(chan_num) --p --p & sg_active(chan_num) -- SG_BSY --p --p & "000000000000000000000000000" when ( DMASR_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector(BDA(chan_num)) when ( BDA_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p SGE(chan_num) & --p --p "0000000000000000000000000000000" when ( SWCR_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector( --p --p RESIZE( --p --p UPC(chan_num)( --p --p DMA_DWIDTH - UPCB to --p --p DMA_DWIDTH - 1 --p --p ), --p --p 32 --p --p ) --p --p ) when ( UPC_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector( --p --p RESIZE( --p --p PCT(chan_num)( --p --p DMA_DWIDTH - UPCB to --p --p DMA_DWIDTH - 1 --p --p ), --p --p DMA_DWIDTH --p --p ) --p --p ) when ( PCT_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector( --p --p RESIZE( --p --p PWB(chan_num)( --p --p DMA_DWIDTH - PWBB to --p --p DMA_DWIDTH - 1 --p --p ), --p --p DMA_DWIDTH --p --p ) --p --p ) when ( PWB_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p "0000000000000000000000000" --p --p & SGEND(chan_num) & SGDA(chan_num) --p --p & PWBR(chan_num) & PCTR(chan_num) --p --p & PD(chan_num) --p --p & DE(chan_num) & DD(chan_num) when ( ISR_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p "0000000000000000000000000" --p --p & ESGEND(chan_num) & ESGDA(chan_num) --p --p & EPWBR(chan_num) & EPCTR(chan_num) --p --p & EPD(chan_num) --p --p & EDE(chan_num) & EDD(chan_num) --p --p when ( IER_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p std_logic_vector( --p --p RESIZE( --p --p PLENGTH(chan_num)( --p --p DMA_DWIDTH-C_DMA_LENGTH_WIDTH(chan_num) to --p DMA_DWIDTH-1), --p --p DMA_DWIDTH --p --p ) --p --p ) when (PLENGTH_sel and DMA_RdCE) --p --p = '1' --p --p else --p --p "00000000000000000000000000000000"; --p DMA2BUS_RDACK_I_PROCESS: process(Bus2IP_Clk) begin if (Bus2IP_Clk'event and Bus2IP_Clk = '1') then if (Bus2IP_Reset = RESET_ACTIVE) then dma2bus_rdack_i <= '0'; else dma2bus_rdack_i <= DMA_RdCE and Bus2IP_RdReq and not dma2bus_rdack_i; end if; end if; end process; DMA2Bus_RdAck <= dma2bus_rdack_i; ---) end, Register readback rx_cco <= rx(cco); ---------------------------------------------------------------------------- -- The below calculates the size of burst to use for the next DMA transfer -- on the channel currently operating (cco). ---------------------------------------------------------------------------- BURST_SIZE_CALC_I0 : burst_size_calc generic map ( C_LENGTH_WIDTH => LENGTHS_WIDTH, C_MSTNUM_WIDTH => C_MA2SA_NUM_WIDTH, C_DMA_BURST_SIZE => TPB, C_BYTES_PER_SINGLE_TRANSFER => BPST, C_DMA_SHORT_BURST_REMAINDER => C_DMA_SHORT_BURST_REMAINDER ) port map ( Bus2IP_Clk => Bus2IP_Clk, LENGTH_cco => std_logic_vector(LENGTH_cco(LENGTHS_LEFT to DMA_DWIDTH-1)), PLENGTH_cco => std_logic_vector(PLENGTH_cco(LENGTHS_LEFT to DMA_DWIDTH-1)), Rx_cco => rx_cco, MstNum => dma2bus_mstnum_dma_p1 ); DMA2BUS_MSTNUM_DMA_PROC : process(Bus2ip_Clk) is begin if Bus2ip_Clk'event and Bus2ip_Clk = '1' then dma2bus_mstnum_dma <= dma2bus_mstnum_dma_p1; end if; end process; ---( Master arbitration and concentration. MASTER_CONCENTRATION: block begin DMA2Bus_MstBusLock <= '0'; -- Bus-lock capability not used. REG_MQ_PROCESS : process (Bus2IP_Clk) is variable dma_sg_sr_pl : std_logic_vector(0 to 3); variable Debug_TEMP : std_logic_vector(0 to C_OPB_AWIDTH-1); variable dma2bus_addr_var : std_logic_vector(DMA2Bus_Addr'range); constant DMA_TO_OPB_DWIDTH_FACTOR : positive := C_OPB_DWIDTH / DMA_DWIDTH; constant DMA_TO_OPB_DWIDTH_FACTOR_BITS : natural := ceil_log2(DMA_TO_OPB_DWIDTH_FACTOR); begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then dma_sg_sr_pl := dma_sel & sg_sel & sr_sel & pl_sel; if Bus2IP_MstLastAck = '1' then dma2bus_addr_var := (others => '0'); DMA2IP_Addr <= (others => '0'); DMA2Bus_MstWrReq <= '0'; DMA2Bus_MstRdReq <= '0'; DMA2Bus_MstBurst <= '0'; DMA2Bus_MstNum <= (others => '0'); --ToDo, include DMA2Bus_MstBE here or, alternatively, --consider if taking out all but WrReq and RdReq --would be adantageous. else --ToDo. May want to use encoded select (regular mux) here. case dma_sg_sr_pl is when "1000" => dma2bus_addr_var := dma2bus_addr_dma; DMA2IP_Addr <= dma2ip_addr_dma; DMA2Bus_MstWrReq <= dma2bus_mstwrreq_dma; DMA2Bus_MstRdReq <= dma2bus_mstrdreq_dma; -- These sampled because they may if dma_sel_d1 = '0' then -- change during the transaction. DMA2Bus_MstBurst <= or_UNSIGNED(UNSIGNED(dma2bus_mstnum_dma( 0 to dma2bus_mstnum_dma'length-2 ))); --True iff dma2bus_mstnum_dma > 1 DMA2Bus_MstNum <= dma2bus_mstnum_dma; end if; DMA2Bus_MstLoc2Loc <= '0'; when "0100" => dma2bus_addr_var := dma2bus_addr_sg; DMA2IP_Addr <= dma2ip_addr_sg; DMA2Bus_MstWrReq <= dma2bus_mstwrreq_sg; DMA2Bus_MstRdReq <= dma2bus_mstrdreq_sg; DMA2Bus_MstBurst <= '0'; DMA2Bus_MstNum <= std_logic_vector(TO_UNSIGNED( 1, DMA2Bus_MstNum'length)); DMA2Bus_MstLoc2Loc <= '0'; when "0010" => dma2bus_addr_var := std_logic_vector(SRAddrFIFO_out(cco)); Debug_TEMP := C_STAT_FIFO_ADDR(cco)( C_STAT_FIFO_ADDR(0)'length-C_OPB_AWIDTH to C_STAT_FIFO_ADDR(0)'length-1 ); DMA2IP_Addr <= Debug_TEMP (C_OPB_AWIDTH - 2 - C_M to C_OPB_AWIDTH - 2 - 1); DMA2Bus_MstWrReq <= dma2bus_mstwrreq_sr; DMA2Bus_MstRdReq <= '0'; DMA2Bus_MstBurst <= '0'; DMA2Bus_MstNum <= (others => '0'); DMA2Bus_MstNum(DMA2Bus_MstNum'right) <= '1'; DMA2Bus_MstLoc2Loc <= '0'; when "0001" => dma2bus_addr_var := C_LEN_FIFO_ADDR(cco)( C_LEN_FIFO_ADDR(0)'length-C_OPB_AWIDTH to C_LEN_FIFO_ADDR(0)'length-1 ); DMA2IP_Addr <= tmp_C_DMA_BASEADDR( tmp_C_DMA_BASEADDR'length - C_M - 2 to tmp_C_DMA_BASEADDR'length - NUM_CHAN_BITS - RPB - 2 - 1 ) & std_logic_vector(TO_UNSIGNED(cco, NUM_CHAN_BITS)) & std_logic_vector(TO_UNSIGNED(r_PLENGTH, RPB)); DMA2Bus_MstWrReq <= dma2bus_mstwrreq_pl; DMA2Bus_MstRdReq <= not dma2bus_mstwrreq_pl; DMA2Bus_MstBurst <= '0'; DMA2Bus_MstNum <= (others => '0'); DMA2Bus_MstNum(DMA2Bus_MstNum'right) <= '1'; DMA2Bus_MstLoc2Loc <= '1'; when others => dma2bus_addr_var := (others => '0'); DMA2IP_Addr <= (others => '0'); DMA2Bus_MstWrReq <= '0'; DMA2Bus_MstRdReq <= '0'; DMA2Bus_MstBurst <= '0'; DMA2Bus_MstNum <= (others => '0'); DMA2Bus_MstNum(DMA2Bus_MstNum'right) <= '1'; DMA2Bus_MstLoc2Loc <= '0'; end case; ------------------------------------------------------------------ -- If DMA_WIDTH = C_OPB_DWIDTH or this master transaction is to -- move DMA data, then enable all byte lanes... ------------------------------------------------------------------ DMA2Bus_MstBE <= (others => '1'); ------------------------------------------------------------------ -- ... otherwise, enable only the 4 byte lanes -- implied by the address. ------------------------------------------------------------------ if DMA_TO_OPB_DWIDTH_FACTOR > 1 and dma_sel = '0' then for i in 0 to DMA_TO_OPB_DWIDTH_FACTOR-1 loop if UNSIGNED(dma2bus_addr_var( C_OPB_AWIDTH - 2 - DMA_TO_OPB_DWIDTH_FACTOR_BITS to C_OPB_AWIDTH - 2 - 1 -- ToDo, perhaps make the 4 and ) -- 2 constants here dependent -- on DMA_DWIDTH ) /= i then DMA2Bus_MstBE(4i to 4(i+1)-1) <= "0000"; end if; end loop; end if; -- end if; DMA2Bus_Addr <= dma2bus_addr_var; end if; -- Bus2IP_Clk'event and Bus2IP_Clk = '1' end process; end block; ---) end, Master arbitration and concentration. --- SRAddrFIFO for each rx pkt or tx pkt channel. SRAddrFIFO_GEN: for i in 0 to LAST_CHAN generate SRAddrFIFO_GEN: if C_DMA_CHAN_TYPE(i) = 2 or C_DMA_CHAN_TYPE(i) = 3 generate I_SRL_FIFO : SRL_FIFO generic map ( C_DATA_BITS => DMA_DWIDTH, -- ToDo, C_OPB_AWIDTH /= DMA_DWIDTH -- would need some attention in places -- where a data value becomes an address. C_DEPTH => 16 ) port map ( Clk => Bus2IP_Clk, Reset => reset(i), FIFO_Write => wr_SRAddrFIFO(i), Data_In => dma2bus_addr_sg, FIFO_Read => rd_SRAddrFIFO(i), Data_Out => SRAddrFIFO_out(i), FIFO_Full => SRAddrFIFO_full(i), Data_Exists => SRAddrFIFO_nonempty(i), Addr => open ); end generate; -- Tie off outputs for non-existent instances. SRAddrFIFO_TIEOFF_GEN: if C_DMA_CHAN_TYPE(i) = 0 or C_DMA_CHAN_TYPE(i) = 1 generate SRAddrFIFO_out(i) <= (others => '0'); SRAddrFIFO_full(i) <= '0'; SRAddrFIFO_nonempty(i) <= '0'; end generate; end generate; --= end, SRAddrFIFO for each rx pkt or tx pkt channel. ---( DMA state machine. DMA_SM: block type dma_state is ( IDLE, DONECHK, -- Done check. Test for end of DMA operation. XACTION, -- Perform a bus transaction. GET_BDA, HANDLE_SRA, -- If required, save the address of where SR will go. GET_DMACR, GET_SA, GET_DA, GET_LENGTH, GET_PLENGTH, PUT_LENGTH, -- Write the completion LENGTH. PUT_DMASR, -- Write the DMA completion status. LQCHK, PUT_PLENGTH, HALT, A_WRITE_SR, B_WRITE_SR, C_WRITE_SR, MSTNUM_PIPE -- Delay allowing dma2bus_mstnum_dma to get -- through a pipe stage. ); type dma_state_array is array(0 to LAST_CHAN) of dma_state; signal dma_cs : dma_state_array; signal dma_ns : dma_state; signal block_chan_muxing : std_logic; signal dma_sel_ns : std_logic; signal sg_sel_ns : std_logic; signal pl_sel_ns : std_logic; signal sr_sel_ns : std_logic; signal mstr_op_done : std_logic; signal mstr_op_done_ns : std_logic; signal wr_cond, rd_cond : std_logic; -- direction of the mem xfer -- XGR wa F.23 bug signal XGR_tmp : dma_state; begin -- XGR wa F.23 bug XGR_tmp <= dma_cs(cco); DMA_SM_COM_PROCESS: process( dma_cs, dma_active, LENGTH_cco, PLENGTH_cco, cco, rx, tx, WFIFO2DMA_Vacancy, Bus2IP_MstWrAck, Bus2IP_MstRdAck, Mstr_sel_ma, Bus2IP_MstError, Bus2IP_MstTimeOut, Bus2IP_MstLastAck, dest_is_a_fifo, first, no_bda_link, sg_active, sgGo, L_tx, IP2DMA_TxLength_Full, IP2DMA_RxLength_Empty, IP2DMA_TxStatus_Empty, SRAddrFIFO_nonempty, XGR_tmp, -- XGR wa F.23 bug SRAddrFIFO_cco_hasroom, dma_completing, dma2bus_mstnum_dma ) variable incdec : std_logic; variable rx_pkt_complete : std_logic; begin -- Default assignments for dma_ns and state machine outputs. dma_starting <= '0'; dma_completing <= '0'; block_chan_muxing <= '0'; set_L_rx <= '0'; set_DBE <= '0'; set_DBT <= '0'; inc_SA <= '0'; inc_DA <= '0'; dec_LENGTH <= '0'; inc_PLENGTH <= '0'; dec_PLENGTH <= '0'; clr_PLENGTH <= '0'; dma_sel_ns <= '0'; sg_sel_ns <= '0'; pl_sel_ns <= '0'; sr_sel_ns <= '0'; reset_sg_offset <= '0'; inc_sg_offset <= (others => '0'); dma2bus_mstwrreq_sg <= '0'; dma2bus_mstwrreq_sr <= '0'; dma2bus_mstwrreq_pl <= '0'; mstr_op_done_ns <= '0'; update_first <= '0'; wr_SRAddrFIFO <= (others => '0'); rd_SRAddrFIFO <= (others => '0'); is_idle <= (others => '0'); rx_pkt_complete := bo2sl(rx(cco)='1' and (PLENGTH_cco=0)); -- Next state and output logic. --case dma_cs(cco) is case XGR_tmp is when IDLE => is_idle(cco) <= '1'; if (tx(cco) and not IP2DMA_TxStatus_Empty) = '1' or (rx_pkt_complete and SRAddrFIFO_nonempty(cco)) = '1' then sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= A_WRITE_SR; else if sgGo(cco) = '1' then if (not rx(cco) or not IP2DMA_RxLength_Empty or not first(cco) ) = '1' then if (not no_bda_link(cco)) = '1' then sg_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= GET_BDA; elsif (rx(cco) and first(cco)) = '1' then pl_sel_ns <= '1'; block_chan_muxing <= '1'; reset_sg_offset <= '1'; dma_ns <= GET_PLENGTH; else block_chan_muxing <= '1'; -- Optional. reset_sg_offset <= '1'; dma_ns <= HANDLE_SRA; end if; else dma_ns <= IDLE; end if; else if dma_active(cco) = '1' then -- Simple DMA. dma_starting <= '1'; -- dma_ns <= DONECHK; --ToDo, rmv dma_ns <= MSTNUM_PIPE; else dma_ns <= IDLE; end if; end if; end if; when GET_BDA => -- This implementation assumes that the Bus2IP_MstLastAck -- is concurrent with or follows the IP2Bus_WrAck that actually -- writes the PLENGTH register. (An earlier implementation -- assumed the opposite order--allowing the MasterAttachment/ -- SlaveAttachment to do a posted write. When that -- implementation actually experienced the opposite during -- operation, then state GET_BDA's successor state, -- GET_PLENGTH, would respond to the Bus2IP_MstLastAck -- that corresponds to state GET_BDA!) -- State GET_LENGTH has similar considerations. if Bus2IP_MstLastAck = '1' then if (rx(cco) and first(cco)) = '1' then pl_sel_ns <= '1'; block_chan_muxing <= '1'; reset_sg_offset <= '1'; dma_ns <= GET_PLENGTH; else block_chan_muxing <= '1'; -- Optional. reset_sg_offset <= '1'; dma_ns <= HANDLE_SRA; end if; else block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= GET_BDA; end if; when GET_PLENGTH => if Bus2IP_MstLastAck = '1' then block_chan_muxing <= '1'; -- Optional. dma_ns <= HANDLE_SRA; else block_chan_muxing <= '1'; pl_sel_ns <= '1'; dma_ns <= GET_PLENGTH; end if; when HANDLE_SRA => if (tx(cco) and not IP2DMA_TxStatus_Empty) = '1' then sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= C_WRITE_SR; elsif ((rx(cco) or tx(cco)) and first(cco)) = '1' then --ToDo. Does first(cco) imply (rx(cco) or tx(cco))? If so, -- (rx(cco) or tx(cco)) could be removed here. if (SRAddrFIFO_cco_hasroom = '1') then wr_SRAddrFIFO(cco) <= '1'; inc_sg_offset(cco) <= '1'; block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= GET_DMACR; else dma_ns <= HANDLE_SRA; end if; else inc_sg_offset(cco) <= '1'; block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= GET_DMACR; end if; when GET_DMACR => if Bus2IP_MstLastAck = '1' then sg_sel_ns <= '1'; block_chan_muxing <= '1'; inc_sg_offset(cco) <= '1'; dma_ns <= GET_SA; else sg_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= GET_DMACR; end if; when GET_SA => if Bus2IP_MstLastAck = '1' then sg_sel_ns <= '1'; block_chan_muxing <= '1'; inc_sg_offset(cco) <= '1'; dma_ns <= GET_DA; else sg_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= GET_SA; end if; when GET_DA => if Bus2IP_MstLastAck = '1' then sg_sel_ns <= '1'; block_chan_muxing <= '1'; inc_sg_offset(cco) <= '1'; dma_ns <= GET_LENGTH; else sg_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= GET_DA; end if; when GET_LENGTH => if Bus2IP_MstLastAck = '1' then -- See the comment of state GET_ BDA for considerations -- that also apply to this state. The load of the LENGTH -- register needs be complete before proceeding to the -- next state. (A "MstLastAck" indication ahead of the -- completion of a posted write will not work. An earlier -- version had such posted write behavior. In that version, -- this state was not exited until the LENGTH register -- actually loaded; signal load_length(cco) was used.) dma_starting <= '1'; -- dma_ns <= DONECHK; --ToDo, rmv dma_ns <= MSTNUM_PIPE; else block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= GET_LENGTH; end if; when MSTNUM_PIPE => block_chan_muxing <= '1'; dma_ns <= DONECHK; when DONECHK => dma_completing <= bo2sl(LENGTH_cco = 0) or rx_pkt_complete; if (tx(cco) and not IP2DMA_TxStatus_Empty) = '1' then sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= B_WRITE_SR; elsif dma_completing = '1' then set_L_rx <= rx_pkt_complete; if sg_active(cco) = '1' then sg_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= PUT_LENGTH; else dma_ns <= IDLE; end if; elsif -- We go to do a bus transaction when we are not at the normal -- end of a DMA operation and there is not a condition -- that keeps us from proceeding. -- The condition that could keep us from proceeding is that -- we are writing to a FIFO and it doesn't have vacancy -- to (1) accomodate a single transfer in the case there isn't -- enough left to do a burst or, otherwise, to (2) accomodate -- a burst. ( dma_completing = '0' and not ( (dest_is_a_fifo = '1') and ( TO_INTEGER(UNSIGNED(dma2bus_mstnum_dma)) > TO_INTEGER(UNSIGNED(WFIFO2DMA_Vacancy)) ) ) ) then dma_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= XACTION; else -- dma_ns <= DONECHK; --ToDo, rmv dma_ns <= MSTNUM_PIPE; end if; when XACTION => incdec := (Bus2IP_MstWrAck or Bus2IP_MstRdAck) and Mstr_sel_ma; inc_SA <= incdec; inc_DA <= incdec; dec_LENGTH <= incdec; inc_PLENGTH <= incdec and tx(cco); dec_PLENGTH <= incdec and rx(cco); if (Bus2IP_MstError or Bus2IP_MstTimeOut) = '1' then set_DBE <= Bus2IP_MstError; set_DBT <= Bus2IP_MstTimeOut; dma_completing <= '1'; if sg_active(cco) = '1' then dma_ns <= HALT; else dma_ns <= IDLE; end if; elsif (Bus2IP_MstLastAck) = '1' then --block_chan_muxing <= '1'; -- Optional, no blocking for -- find-grain switching -- between channels. -- dma_ns <= DONECHK; --ToDo, rmv dma_ns <= MSTNUM_PIPE; else dma_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= XACTION; end if; when PUT_LENGTH => dma2bus_mstwrreq_sg <= '1'; if Bus2IP_MstLastAck = '1' then block_chan_muxing <= '1'; sg_sel_ns <= '1'; inc_sg_offset(cco) <= '1'; dma_ns <= PUT_DMASR; else block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= PUT_LENGTH; end if; when PUT_DMASR => dma2bus_mstwrreq_sg <= '1'; if Bus2IP_MstLastAck = '1' then inc_sg_offset(cco) <= '1'; dma_ns <= LQCHK; else block_chan_muxing <= '1'; sg_sel_ns <= '1'; dma_ns <= PUT_DMASR; end if; when LQCHK => update_first <= '1'; if (not tx(cco) or not L_tx(cco)) = '1' then dma_ns <= IDLE; elsif (not IP2DMA_TXLength_Full) = '1' then block_chan_muxing <= '1'; pl_sel_ns <= '1'; dma_ns <= PUT_PLENGTH; else dma_ns <= LQCHK; end if; when PUT_PLENGTH => dma2bus_mstwrreq_pl <= '1'; if Bus2IP_MstLastAck = '1' then clr_PLENGTH <= '1'; dma_ns <= IDLE; else block_chan_muxing <= '1'; pl_sel_ns <= '1'; dma_ns <= PUT_PLENGTH; end if; when HALT => dma_ns <= HALT; when A_WRITE_SR => is_idle(cco) <= '1'; --ToDo. Perhaps can eliminate this sig and drive dma2bus_mstwrreq to '1' when sr_sel dma2bus_mstwrreq_sr <= '1'; if Bus2IP_MstLastAck = '1' then rd_SRAddrFIFO(cco) <= '1'; dma_ns <= IDLE; else sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= A_WRITE_SR; end if; when B_WRITE_SR => dma2bus_mstwrreq_sr <= '1'; if Bus2IP_MstLastAck = '1' then rd_SRAddrFIFO(cco) <= '1'; block_chan_muxing <= '1'; dma_ns <= DONECHK; -- DONECHK okay here as long as -- chan_muxing is blocked leaving this state. else sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= B_WRITE_SR; end if; when C_WRITE_SR => dma2bus_mstwrreq_sr <= '1'; if Bus2IP_MstLastAck = '1' then rd_SRAddrFIFO(cco) <= '1'; block_chan_muxing <= '1'; dma_ns <= HANDLE_SRA; else sr_sel_ns <= '1'; block_chan_muxing <= '1'; dma_ns <= C_WRITE_SR; end if; end case; end process; DMA_SM_DMA_CS_REG_PROCESS: process(Bus2IP_Clk) begin for i in 0 to LAST_CHAN loop if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if reset(i) = '1' then dma_cs(i) <= IDLE; elsif cco = i then dma_cs(i) <= dma_ns; end if; end if; end loop; end process; DMA_SM_OTHER_REG_PROCESS: process(Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset='1' then dma_sel <= '0'; sg_sel <= '0'; pl_sel <= '0'; sr_sel <= '0'; mstr_op_done <= '0'; cco <= 0; else dma_sel <= dma_sel_ns; sg_sel <= sg_sel_ns; pl_sel <= pl_sel_ns; sr_sel <= sr_sel_ns; mstr_op_done <= mstr_op_done_ns; if block_chan_muxing = '0' then if cco = LAST_CHAN then cco <= 0; else cco <= cco+1; end if; end if; end if; end if; end process; DMA_SEL_D1_PROC: process(Bus2IP_Clk) begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then if Bus2IP_Reset='1' then dma_sel_d1 <= '1'; else dma_sel_d1 <= dma_sel; end if; end if; end process; wr_cond <= SLOCAL(cco) and not DLOCAL(cco); rd_cond <= DLOCAL(cco) and not SLOCAL(cco); dma2bus_addr_dma <= std_logic_vector(SA(cco)) when rd_cond = '1' else std_logic_vector(DA(cco)); dma2ip_addr_dma <= std_logic_vector(DA(cco)(DMA_DWIDTH-2-C_M to DMA_DWIDTH-2-1)) when rd_cond = '1' else std_logic_vector(SA(cco)(DMA_DWIDTH-2-C_M to DMA_DWIDTH-2-1)); dma2bus_mstwrreq_dma <= wr_cond; dma2bus_mstrdreq_dma <= rd_cond; -- burst_cond_dma <= bo2sl(C_DMA_ALLOW_BURST) and -- ( (rx(cco) and PLENGTH_ge_BPBT and LENGTH_ge_BPBT) -- or (not rx(cco) and LENGTH_ge_BPBT) -- ); -- Note for burst_cond_dma: We pass up the opportunity to include -- in a burst a last word that has padding and whose padding would -- bring the total to exactly BPBT. This allows a simpler test. -- For example, with BPBT = 32, we use a "length" >= 32 test, and -- we are passing up optimization of the 29, 30 and 31 cases -- in order to have a simpler test. SG_ACTIVE_PROCESS: process (Bus2IP_Clk) is begin if Bus2IP_Clk'event and Bus2IP_Clk = '1' then for i in 0 to LAST_CHAN loop if reset(i) = '1' then sg_active(i) <= '0'; sg_active_d1(i) <= '0'; else sg_active_d1(i) <= sg_active(i); if (SGE(i) and not SGS(i)) = '1' then sg_active(i) <= '1'; elsif is_idle(i) = '1' and ( ( C_DMA_CHAN_TYPE(i) /=2 and C_DMA_CHAN_TYPE(i) /=3 ) or ( SRAddrFIFO_nonempty(i) = '0' and first(i) = '1' ) ) then sg_active(i) <= '0'; end if; end if; end loop; end if; end process; end block; ---) end, DMA state machine. --- SG MQ bundle. SG_SM: block begin dma2bus_addr_sg <= std_logic_vector( BDA(cco)(0 to BDA(cco)'length - 2 - 1) + sg_offset(cco) ) & "00"; dma2ip_addr_sg <= tmp_C_DMA_BASEADDR( tmp_C_DMA_BASEADDR'length - 2 - C_M to tmp_C_DMA_BASEADDR'length - 2 - NUM_CHAN_BITS - RPB - 1 ) & std_logic_vector(TO_UNSIGNED(cco, NUM_CHAN_BITS)) & std_logic_vector(sg_offset(cco)); dma2bus_mstrdreq_sg <= not dma2bus_mstwrreq_sg; end block; --= end, SG MQ bundle. end sim; --)
--RC5 Round Key Generation --i=0;j=0; --do 78 times ----A = S[i] = (S[i] + A + B) <<< 3; ----B = L[j] = (L[j] + A + B) <<< (A + B); ----i = (i + 1) mod 26; ----j = (j + 1) mod 4; LIBRARY IEEE; USE IEEE.STD_LOGIC_1164.ALL; USE IEEE.STD_LOGIC_UNSIGNED.ALL; -- we will use CONV_INTEGER USE WORK.RC5_PKG.ALL; entity rc5_key is port( clr,clk : in std_logic; -- Asynchronous reset and Clock Signal key : in std_logic_vector(127 downto 0); key_vld : in std_logic; skey : out rc5_rom_26; key_rdy : out std_logic); end rc5_key; architecture key_exp of rc5_key is signal i_cnt : std_logic_vector(04 downto 00); -- s_array counter signal j_cnt : std_logic_vector(04 downto 00); -- l_array counter signal r_cnt : std_logic_vector(06 downto 00); -- overall counterer; counts to 78 signal a : std_logic_vector(31 downto 00); signal a_circ : std_logic_vector(31 downto 00); signal a_reg : std_logic_vector(31 downto 00); -- register A signal b : std_logic_vector(31 downto 00); signal b_circ : std_logic_vector(31 downto 00); signal b_reg : std_logic_vector(31 downto 00); -- register B signal temp : std_logic_vector(31 downto 00); --Key Expansion state machine has five states: idle, key in, expansion and ready signal state : rc5_key_StateType; signal l : rc5_rom_4; signal s : rc5_rom_26; begin -- it is not a data-dependent rotation! --A = S[i] = (S[i] + A + B) <<< 3; a <= s(conv_integer(i_cnt)) + a_reg + b_reg; --S + A + B a_circ <= a(28 downto 0) & a(31 downto 29); --rot by 3 -- this is a data-dependent rotation! --B = L[j] = (L[j] + A + B) <<< (A + B); b <= l(conv_integer(j_cnt)) + a_circ + b_reg; --L + A + B -- rot by A + B temp <= a_circ + b_reg; ROT_A_LEFT: rotLeft PORT MAP(din=>b,amnt=>temp(4 DOWNTO 0),dout=>b_circ);--b_circ <<< temp state_block: process(clr, clk) begin if (clr = '0') then state <= st_idle; elsif (rising_edge(clk)) then case state is when st_idle => if(key_vld = '1') then state <= st_key_in; end if; when st_key_in => state <= st_key_exp; when st_key_exp => if (r_cnt = "1001101") then state <= st_ready; end if; when st_ready => IF( key_vld='1') THEN -- /= is not equals to state <= st_key_in; --in event of new key start at key_in --state otherwise would be a timing issue --state<=ST_IDLE; --If Input Changes then restart END IF; end case; end if; end process; a_reg_block: process(clr, clk) begin if(clr = '0') then a_reg <= (others => '0'); elsif (rising_edge(clk)) then if (state = st_key_exp) then a_reg <= a_circ; end if; end if; end process; b_reg_block: process(clr, clk) begin if(clr = '0') then b_reg <= (others => '0'); elsif (rising_edge(clk)) then if (state = st_key_exp) then b_reg <= b_circ; end if; end if; end process; s_array_counter_block: process(clr, clk) begin if(clr='0') then i_cnt<=(others=>'0'); elsif(rising_edge(clk)) then if(state=ST_KEY_EXP) then if(i_cnt="11001") then i_cnt <= (others=>'0'); else i_cnt <= i_cnt + 1; end if; end if; end if; end process; l_array_counter_block: process(clr, clk) begin if(clr='0') then j_cnt<=(others=>'0'); elsif(rising_edge(clk)) then if(j_cnt="00011") then j_cnt<=(others=>'0'); else j_cnt <= j_cnt + 1; end if; end if; end process; overall_counter_block: process(clr, clk) begin if (clr = '0') then r_cnt <= "0000000"; elsif (rising_edge(clk)) then if (state = st_key_exp) then r_cnt <= r_cnt + 1; end if; end if; end process; --S[0] = 0xB7E15163 (Pw) --for i=1 to 25 do S[i] = S[i-1]+ 0x9E3779B9 (Qw) --array s process(clr, clk) begin if (clr = '0') then s(0) <= X"b7e15163"; s(1) <= X"5618cb1c";s(2) <= X"f45044d5"; s(3) <= X"9287be8e";s(4) <= X"30bf3847";s(5) <= X"cef6b200"; s(6) <= X"6d2e2bb9";s(7) <= X"0b65a572";s(8) <= X"a99d1f2b"; s(9) <= X"47d498e4";s(10) <= X"e60c129d";s(11) <= X"84438c56"; s(12) <= X"227b060f";s(13) <= X"c0b27fc8";s(14) <= X"5ee9f981"; s(15) <= X"fd21733a";s(16) <= X"9b58ecf3";s(17) <= X"399066ac"; s(18) <= X"d7c7e065";s(19) <= X"75ff5a1e";s(20) <= X"1436d3d7"; s(21) <= X"b26e4d90";s(22) <= X"50a5c749";s(23) <= X"eedd4102"; s(24) <= X"8d14babb";s(25) <= X"2b4c3474"; elsif (rising_edge(clk)) then if (state = st_key_exp) then s(conv_integer(i_cnt)) <= a_circ;--i = (i + 1) mod 26; end if; end if; end process; --l array process(clr, clk) begin if(clr = '0') then l(0) <= (others=>'0'); l(1) <= (others=>'0'); l(2) <= (others=>'0'); l(3) <= (others=>'0'); elsif (rising_edge(clk)) then if(state = st_key_in) then l(0) <= key(31 downto 0); l(1) <= key(63 downto 32); l(2) <= key(95 downto 64); l(3) <= key(127 downto 96); elsif(state = st_key_exp) then l(conv_integer(j_cnt)) <= b_circ; --j = (j + 1) mod 4; end if; end if; end process; skey <= s; with state select key_rdy <= '1' when st_ready, '0' when others; end key_exp;
------------------------------------------------------------------------------ -- This file is a part of the GRLIB VHDL IP LIBRARY -- Copyright (C) 2003 - 2008, Gaisler Research -- Copyright (C) 2008 - 2013, Aeroflex Gaisler -- -- This program is free software; you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation; either version 2 of the License, or -- (at your option) any later version. -- -- This program is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- -- You should have received a copy of the GNU General Public License -- along with this program; if not, write to the Free Software -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ------------------------------------------------------------------------------- -- Entity: sim_pll -- File: sim_pll.vhd -- Author: Magnus Hjorth, Aeroflex Gaisler -- Description: Generic simulated PLL with input frequency checking ------------------------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; library grlib; use grlib.stdlib.all; entity sim_pll is generic ( clkmul: integer := 1; clkdiv1: integer := 1; clkphase1: integer := 0; clkdiv2: integer := 1; clkphase2: integer := 0; clkdiv3: integer := 1; clkphase3: integer := 0; clkdiv4: integer := 1; clkphase4: integer := 0; -- Frequency limits in kHz, for checking only minfreq: integer := 0; maxfreq: integer := 10000000; -- Lock tolerance in ps locktol: integer := 2 ); port ( i: in std_logic; o1: out std_logic; o2: out std_logic; o3: out std_logic; o4: out std_logic; lock: out std_logic; rst: in std_logic ); end; architecture sim of sim_pll is signal clkout1,clkout2,clkout3,clkout4: std_logic; signal tp: time := 1 ns; signal timeset: boolean := false; signal fb: std_ulogic; signal comp: time := 0 ns; signal llock: std_logic; begin o1 <= transport clkout1 after tp + (tpclkdiv1(clkphase1 mod 360)) / (clkmul360); o2 <= transport clkout2 after tp + (tpclkdiv2(clkphase2 mod 360)) / (clkmul360); o3 <= transport clkout3 after tp + (tpclkdiv3(clkphase3 mod 360)) / (clkmul360); o4 <= transport clkout4 after tp + (tpclkdiv4(clkphase4 mod 360)) / (clkmul360); lock <= llock after tp20; -- 20 cycle inertia on lock signal freqmeas: process(i) variable ts,te: time; variable mf: integer; variable warned: boolean := false; variable first: boolean := true; begin if rising_edge(i) and (now /= (0 ps)) then ts := te; te := now; if first then first := false; else mf := (1 ms) / (te-ts); assert (mf >= minfreq and mf <= maxfreq) or warned or rst='0' or llock/='1' report "Input frequency out of range, " & "measured: " & tost(mf) & ", min:" & tost(minfreq) & ", max:" & tost(maxfreq) severity warning; if (mf < minfreq or mf > maxfreq) and rst/='0' and llock='1' then warned := true; end if; if llock='0' or te-ts-tp > locktol(1 ps) or te-ts-tp < -locktol(1 ps) then tp <= te-ts; timeset <= true; end if; end if; end if; end process; genclk: process variable divcount1,divcount2,divcount3,divcount4: integer; variable compen: boolean; variable t: time; variable compps: integer; begin compen := false; clkout1 <= '0'; clkout2 <= '0'; clkout3 <= '0'; clkout4 <= '0'; if not timeset or rst='0' then wait until timeset and rst/='0'; end if; divcount1 := 0; divcount2 := 0; divcount3 := 0; divcount4 := 0; fb <= '1'; clkout1 <= '1'; clkout2 <= '1'; clkout3 <= '1'; clkout4 <= '1'; oloop: loop for x in 0 to 2clkmul-1 loop if x=0 then fb <= '1'; end if; if x=clkmul then fb <= '0'; end if; t := tp/(2clkmul); if compen and comp /= (0 ns) then -- Handle compensation below resolution limit (1 ps assumed) if comp < 2clkmul(1 ps) and comp > -2clkmul(1 ps) then compps := abs(comp / (1 ps)); if x > 0 and x <= compps then if comp > 0 ps then t := t + 1 ps; else t := t - 1 ps; end if; end if; else t:=t+comp/(2clkmul); end if; end if; if t > (0 ns) then wait on rst for t; else wait for 1 ns; end if; exit oloop when rst='0'; divcount1 := divcount1+1; if divcount1 >= clkdiv1 then clkout1 <= not clkout1; divcount1 := 0; end if; divcount2 := divcount2+1; if divcount2 >= clkdiv2 then clkout2 <= not clkout2; divcount2 := 0; end if; divcount3 := divcount3+1; if divcount3 >= clkdiv3 then clkout3 <= not clkout3; divcount3 := 0; end if; divcount4 := divcount4+1; if divcount4 >= clkdiv4 then clkout4 <= not clkout4; divcount4 := 0; end if; end loop; compen := true; end loop oloop; end process; fbchk: process(fb,i) variable last_i,prev_i: time; variable last_fb,prev_fb: time; variable vlock: std_logic := '0'; begin if falling_edge(i) then prev_i := last_i; last_i := now; end if; if falling_edge(fb) then -- Update phase compensation if last_i < last_fb+tp/2 then comp <= (last_i - last_fb); else comp <= last_i - now; end if; prev_fb := last_fb; last_fb := now; end if; if (last_i<=(last_fb+locktol(1 ps)) and last_i>=(last_fb-locktol(1 ps)) and prev_i<=(prev_fb+locktol(1 ps)) and prev_i>=(prev_fb-locktol(1 ps))) then vlock := '1'; end if; if prev_fb > last_i+locktol(1 ps) or prev_i>last_fb+locktol(1 ps) then vlock := '0'; end if; llock <= vlock; end process; end;
------------------------------------------------------------------------------ -- This file is a part of the GRLIB VHDL IP LIBRARY -- Copyright (C) 2003 - 2008, Gaisler Research -- Copyright (C) 2008 - 2014, Aeroflex Gaisler -- Copyright (C) 2015, Cobham Gaisler -- -- This program is free software; you can redistribute it and/or modify -- it under the terms of the GNU General Public License as published by -- the Free Software Foundation; either version 2 of the License, or -- (at your option) any later version. -- -- This program is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -- GNU General Public License for more details. -- -- You should have received a copy of the GNU General Public License -- along with this program; if not, write to the Free Software -- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ----------------------------------------------------------------------------- -- Entity: ahbtbm -- File: ahbtbm.vhd -- Author: Nils-Johan Wessman - Gaisler Research -- Description: AHB Testbench master ------------------------------------------------------------------------------ library IEEE; use IEEE.std_logic_1164.all; library grlib; use grlib.amba.all; use grlib.stdlib.all; use grlib.devices.all; use work.ahbtbp.all; entity ahbtbm is generic ( hindex : integer := 0; hirq : integer := 0; venid : integer := VENDOR_GAISLER; devid : integer := 0; version : integer := 0; chprot : integer := 3; incaddr : integer := 0); port ( rst : in std_ulogic; clk : in std_ulogic; ctrli : in ahbtbm_ctrl_in_type; ctrlo : out ahbtbm_ctrl_out_type; ahbmi : in ahb_mst_in_type; ahbmo : out ahb_mst_out_type ); end; architecture rtl of ahbtbm is constant hconfig : ahb_config_type := ( 0 => ahb_device_reg ( venid, devid, 0, version, 0), others => zero32); type reg_type is record -- new /* grant : std_logic; grant2 : std_logic; retry : std_logic_vector(1 downto 0); read : std_logic; -- indicate dbgl : integer; use128 : integer; hsize : std_logic_vector(2 downto 0); ac : ahbtbm_access_array_type; retryac : ahbtbm_access_type; curac : ahbtbm_access_type; haddr : std_logic_vector(31 downto 0); -- addr current access hdata : std_logic_vector(31 downto 0); -- data currnet access hdata128 : std_logic_vector(127 downto 0); -- data currnet access hwrite : std_logic; -- write current access hrdata : std_logic_vector(31 downto 0); hrdata128 : std_logic_vector(127 downto 0); status : ahbtbm_status_type; dvalid : std_logic; oldhtrans : std_logic_vector(1 downto 0); -- new / start : std_ulogic; active : std_ulogic; end record; signal dmai : ahb_dma_in_type; signal dmao : ahb_dma_out_type; signal r, rin : reg_type; begin ctrlo.rst <= rst; ctrlo.clk <= clk; comb : process(ahbmi, ctrli, rst, r) -- new / variable v : reg_type; variable update : std_logic; variable hbusreq : std_ulogic; -- bus request variable kblimit : std_logic; -- 1 kB limit indicator -- new / variable ready : std_ulogic; variable retry : std_ulogic; variable mexc : std_ulogic; variable inc : std_logic_vector(3 downto 0); -- address increment variable haddr : std_logic_vector(31 downto 0); -- AHB address variable hwdata : std_logic_vector(31 downto 0); -- AHB write data variable htrans : std_logic_vector(1 downto 0); -- transfer type variable hwrite : std_ulogic; -- read/write variable hburst : std_logic_vector(2 downto 0); -- burst type variable newaddr : std_logic_vector(10 downto 0); -- next sequential address variable hprot : std_logic_vector(3 downto 0); -- transfer type variable xhirq : std_logic_vector(NAHBIRQ-1 downto 0); begin -- new / v := r; update := '0'; hbusreq := '0';--v.retry := '0'; v.dvalid := '0'; xhirq := (others => '0'); hprot := "1110"; --v.hrdata := ahbmi.hrdata; --v.hrdata128 := ahbmi.hrdata128; v.hrdata := ahbmi.hrdata(31 downto 0); v.hrdata128 := ahbread4word(ahbmi.hrdata); -- pragma translate_off if ahbmi.hready = '1' and ahbmi.hresp = HRESP_ERROR then v.hrdata := (others => 'X'); v.hrdata128 := (others => 'X'); end if; -- pragma translate_on v.status.err := '0'; --v.oldhtrans := r.ac(1).htrans; kblimit := '0'; -- Sample grant when hready if ahbmi.hready = '1' then v.grant := ahbmi.hgrant(hindex); v.grant2 := r.grant; v.oldhtrans := r.ac(1).htrans; end if; -- 1k limit if (r.ac(0).htrans = HTRANS_SEQ and (r.ac(0).haddr(10) xor r.ac(1).haddr(10)) = '1') or (r.retryac.htrans = HTRANS_SEQ and (r.retryac.haddr(10) xor r.ac(1).haddr(10)) = '1' and r.retry = "10") then kblimit := '1'; end if; -- Read in new access --if ((ahbmi.hready = '1' and ahbmi.hresp = HRESP_OKAY and r.grant = '1') -- or r.ac(1).htrans = HTRANS_IDLE) and r.retry = '0' then --if ahbmi.hready = '1' and ((ahbmi.hresp = HRESP_OKAY and r.grant = '1') -- or r.ac(1).htrans = HTRANS_IDLE) and r.retry = "00" then if ahbmi.hready = '0' and (ahbmi.hresp = HRESP_RETRY or ahbmi.hresp = HRESP_SPLIT) and r.grant2 = '1' then if r.retry = "00" then v.retryac := r.ac(1); v.ac(1) := r.curac; v.ac(1).htrans := HTRANS_IDLE; v.ac(1).hburst := "000"; v.retry := "01"; elsif r.retry = "10" then v.ac(1) := r.retryac; if kblimit = '1' then v.ac(1).htrans := HTRANS_NONSEQ; end if; end if; elsif ahbmi.hready = '1' and ( r.grant = '1' or r.ac(1).htrans = HTRANS_IDLE) and r.retry = "00" then -- elsif ahbmi.hready = '1' and (( r.grant = '1' and -- (ahbmi.hresp = HRESP_OKAY or ahbmi.hresp = HRESP_ERROR)) -- or r.ac(1).htrans = HTRANS_IDLE) and r.retry = "00" then v.ac(1) := r.ac(0); v.ac(0) := ctrli.ac; v.curac := r.ac(1); v.hdata := r.ac(1).hdata; v.haddr := r.ac(1).haddr; v.hwrite := r.ac(1).hwrite; v.dbgl := r.ac(1).ctrl.dbgl; v.use128 := r.ac(1).ctrl.use128; if v.use128 = 0 then v.hdata128 := r.ac(1).hdata & r.ac(1).hdata & r.ac(1).hdata & r.ac(1).hdata; else v.hdata128 := r.ac(1).hdata128; end if; v.hsize := r.ac(1).hsize; v.read := (not r.ac(1).hwrite) and r.ac(1).htrans(1); update := '1'; if kblimit = '1' then v.ac(1).htrans := HTRANS_NONSEQ; end if; elsif ahbmi.hready = '0' and (ahbmi.hresp = HRESP_RETRY or ahbmi.hresp = HRESP_SPLIT) and r.grant2 = '1' then if r.retry = "00" then v.retryac := r.ac(1); v.ac(1) := r.curac; v.ac(1).htrans := HTRANS_IDLE; v.ac(1).hburst := "000"; v.retry := "01"; elsif r.retry = "10" then v.ac(1) := r.retryac; if kblimit = '1' then v.ac(1).htrans := HTRANS_NONSEQ; end if; end if; elsif r.retry = "01" then v.ac(1).htrans := HTRANS_NONSEQ; v.ac(1).hburst := r.curac.hburst; v.read := '0'; v.retry := "10"; elsif ahbmi.hready = '1' and r.grant = '1' and r.retry = "10" then v.read := (not r.ac(1).hwrite) and r.ac(1).htrans(1); --if ahbmi.hresp = HRESP_OKAY then --if ahbmi.hresp = HRESP_OKAY or ahbmi.hresp = HRESP_ERROR then v.ac(1) := r.retryac; if kblimit = '1' then v.ac(1).htrans := HTRANS_NONSEQ; end if; v.retry := "00"; --end if; end if; -- NONSEQ in retry --if r.retry = '1' then v.ac(1).htrans := HTRANS_NONSEQ; end if; -- NONSEQ if burst is interrupted if r.grant = '0' and r.ac(1).htrans = HTRANS_SEQ then v.ac(1).htrans := HTRANS_NONSEQ; end if; --if r.ac(1).htrans /= HTRANS_IDLE or r.ac(0).htrans /= HTRANS_IDLE then -- hbusreq := '1'; --end if; if r.ac(1).htrans = HTRANS_NONSEQ or (r.ac(1).htrans = HTRANS_SEQ and r.ac(0).htrans /= HTRANS_NONSEQ and kblimit = '0') then hbusreq := '1'; end if; --if r.grant = '0' then -- fix dvalid if grant deasserted *** ??? if r.grant = '0' and ahbmi.hready = '1' then v.read := '0'; end if; -- Check read data if r.read = '1' and ahbmi.hresp = HRESP_OKAY and ahbmi.hready = '1' then v.dvalid := '1'; if r.use128 = 0 then --if r.hdata /= ahbmi.hrdata then if r.hdata /= ahbmi.hrdata(31 downto 0) then v.status.err := '1'; end if; else if r.hsize = "100" then --if r.hdata128 /= ahbmi.hrdata128 then if r.hdata128 /= ahbread4word(ahbmi.hrdata) then v.status.err := '1'; end if; else --if r.hdata128(63 downto 0) /= ahbmi.hrdata128(63 downto 0) then --if r.hdata128(63 downto 0) /= ahbmi.hrdata(63 downto 0) then if r.hdata128(63 downto 0) /= ahbreaddword(ahbmi.hrdata) then v.status.err := '1'; end if; end if; end if; elsif r.read = '1' and ahbmi.hresp = HRESP_ERROR and ahbmi.hready = '1' then v.status.err := '1'; end if; -- new */ if rst = '0' then v.ac(0).htrans := (others => '0'); v.ac(1).htrans := (others => '0'); v.retry := (others => '0'); v.read := '0'; v.ac(1).haddr := (others => '0'); v.ac(1).htrans := (others => '0'); v.ac(1).hwrite := '0'; v.ac(1).hsize := (others => '0'); v.ac(1).hburst := (others =>'0'); end if; rin <= v; ctrlo.update <= update; ctrlo.status <= r.status; ctrlo.hrdata <= r.hrdata; ctrlo.hrdata128 <= r.hrdata128; ctrlo.dvalid <= r.dvalid; ahbmo.haddr <= r.ac(1).haddr; ahbmo.htrans <= r.ac(1).htrans; ahbmo.hbusreq <= hbusreq; --ahbmo.hwdata <= r.hdata; --ahbmo.hwdata128 <= r.hdata128; ahbmo.hwdata <= ahbdrivedata(r.hdata128); ahbmo.hconfig <= hconfig; ahbmo.hlock <= '0'; ahbmo.hwrite <= r.ac(1).hwrite; ahbmo.hsize <= r.ac(1).hsize; ahbmo.hburst <= r.ac(1).hburst; ahbmo.hprot <= r.ac(1).hprot; ahbmo.hirq <= xhirq; ahbmo.hindex <= hindex; end process; regs : process(clk) begin if rising_edge(clk) then r <= rin; -- pragma translate_off if r.read = '1' and ahbmi.hready = '1' then --and r.oldhtrans /= HTRANS_IDLE then if ahbmi.hresp = HRESP_OKAY then if rin.status.err = '0' then if r.dbgl >= 2 then if r.use128 = 0 then print(ptime & "Read[" & tost(r.haddr) & "]: " & tost(ahbmi.hrdata(31 downto 0))); else if r.hsize = "100" then print(ptime & "Read[" & tost(r.haddr) & "]: " & tost(ahbmi.hrdata)); else print(ptime & "Read[" & tost(r.haddr) & "]: " & tost(ahbreaddword(ahbmi.hrdata))); end if; end if; end if; else if r.dbgl >= 1 then if r.use128 = 0 then print(ptime & "Read[" & tost(r.haddr) & "]: " & tost(ahbmi.hrdata(31 downto 0)) & " != " & tost(r.hdata)); else if r.hsize = "100" then print(ptime & "Read[" & tost(r.haddr) & "]: " & tost(ahbmi.hrdata) & " != " & tost(r.hdata128)); else print(ptime & "Read[" & tost(r.haddr) & "]: " & tost(ahbreaddword(ahbmi.hrdata)) & " != " & tost(r.hdata128(63 downto 0))); end if; end if; end if; end if; elsif ahbmi.hresp = HRESP_RETRY then if r.dbgl >= 3 then print(ptime & "Read[" & tost(r.haddr) & "]: [RETRY]"); end if; elsif ahbmi.hresp = HRESP_SPLIT then if r.dbgl >= 3 then print(ptime & "Read[" & tost(r.haddr) & "]: [SPLIT]"); end if; elsif ahbmi.hresp = HRESP_ERROR then if r.dbgl >= 1 then print(ptime & "Read[" & tost(r.haddr) & "]: [ERROR]"); end if; end if; end if; if r.hwrite = '1' and ahbmi.hready = '1' and r.oldhtrans /= HTRANS_IDLE then if ahbmi.hresp = HRESP_OKAY then if r.dbgl >= 2 then if r.use128 = 0 then print(ptime & "Write[" & tost(r.haddr) & "]: " & tost(r.hdata)); else if r.hsize = "100" then print(ptime & "Write[" & tost(r.haddr) & "]: " & tost(r.hdata128)); else print(ptime & "Write[" & tost(r.haddr) & "]: " & tost(r.hdata128(63 downto 0))); end if; end if; end if; elsif ahbmi.hresp = HRESP_RETRY then if r.dbgl >= 3 then if r.use128 = 0 then print(ptime & "Write[" & tost(r.haddr) & "]: " & tost(r.hdata) & " [RETRY]"); else if r.hsize = "100" then print(ptime & "Write[" & tost(r.haddr) & "]: " & tost(r.hdata128) & " [RETRY]"); else print(ptime & "Write[" & tost(r.haddr) & "]: " & tost(r.hdata128(63 downto 0)) & " [RETRY]"); end if; end if; end if; elsif ahbmi.hresp = HRESP_SPLIT then if r.dbgl >= 3 then print(ptime & "Write[" & tost(r.haddr) & "]: " & tost(r.hdata) & " [SPLIT]"); end if; elsif ahbmi.hresp = HRESP_SPLIT then if r.dbgl >= 3 then print(ptime & "Write[" & tost(r.haddr) & "]: " & tost(r.hdata) & " [SPLIT]"); end if; elsif ahbmi.hresp = HRESP_ERROR then if r.dbgl >= 1 then if r.use128 = 0 then print(ptime & "Write[" & tost(r.haddr) & "]: " & tost(r.hdata) & " [ERROR]"); else if r.hsize = "100" then print(ptime & "Write[" & tost(r.haddr) & "]: " & tost(r.hdata128) & " [ERROR]"); else print(ptime & "Write[" & tost(r.haddr) & "]: " & tost(r.hdata128(63 downto 0)) & " [ERROR]"); end if; end if; end if; end if; end if; -- pragma translate_on end if; end process; end;
LIBRARY IEEE; USE IEEE.STD_LOGIC_1164.ALL; USE IEEE.NUMERIC_STD.ALL; LIBRARY WORK; USE WORK.ALL; ENTITY fsm IS PORT ( clock : IN STD_LOGIC; resetb : IN STD_LOGIC; xdone, ydone, ldone : IN STD_LOGIC; sw : IN STD_LOGIC_VECTOR(17 downto 0); draw : IN STD_LOGIC; resetx, resety, incr_y, incr_x, plot, initl, drawl : OUT STD_LOGIC; colour : OUT STD_LOGIC_VECTOR(2 downto 0); x : OUT STD_LOGIC_VECTOR(7 downto 0); y : OUT STD_LOGIC_VECTOR(6 downto 0); ledg : OUT STD_LOGIC_VECTOR(7 downto 0) ); END fsm; ARCHITECTURE behavioural OF fsm IS TYPE state_types is (CLEAR_START, CLEAR_NEXTROW, CLEAR_NEXTCOL, LOAD_INPUT, INIT_LINE, DRAW_LINE, DONE_LINE); SIGNAL curr_state, next_state : state_types := CLEAR_START; BEGIN PROCESS(clock, resetb) --VARIABLE next_state : state_types; BEGIN IF (resetb = '0') THEN curr_state <= CLEAR_START; ELSIF rising_edge(clock) THEN curr_state <= next_state; END IF; END PROCESS; PROCESS(curr_state, next_state) BEGIN CASE curr_state IS WHEN CLEAR_START => resetx <= '1'; resety <= '1'; incr_y <= '1'; incr_x <= '1'; INITL <= '0'; DRAWL <= '0'; PLOT <= '0'; colour <= "000"; ledg <= "00000000"; next_state <= CLEAR_NEXTCOL; --Clear next row WHEN CLEAR_NEXTROW => resetx <= '1'; resety <= '0'; incr_y <= '1'; incr_x <= '1'; INITL <= '0'; DRAWL <= '0'; PLOT <= '0'; ledg <= "00000001"; next_state <= CLEAR_NEXTCOL; --Clear next column WHEN CLEAR_NEXTCOL => resetx <= '0'; resety <= '0'; incr_y <= '0'; incr_x <= '1'; INITL <= '0'; DRAWL <= '0'; PLOT <= '1'; ledg <= "00000010"; IF (XDONE = '0') THEN next_state <= CLEAR_NEXTCOL; ELSIF (XDONE = '1' AND YDONE = '0') THEN next_state <= CLEAR_NEXTROW; ELSE next_state <= LOAD_INPUT; END IF; when LOAD_INPUT => resetx <= '0'; resety <= '0'; incr_y <= '0'; incr_x <= '0'; INITL <= '0'; DRAWL <= '0'; PLOT <= '0'; ledg <= "00000100"; --When draw signal is low, initialize line with input IF (draw = '0') THEN x <= sw(17 downto 10); y <= sw(9 downto 3); --Clip input to within bounds IF (unsigned(sw(17 downto 10)) > 159) THEN x <= "10011111"; END IF; IF (unsigned(sw(9 downto 3)) > 119) THEN y <= "1110111"; END IF; next_state <= INIT_LINE; ELSE next_state <= LOAD_INPUT; END IF; WHEN INIT_LINE => resetx <= '0'; resety <= '0'; incr_y <= '0'; incr_x <= '0'; INITL <= '1'; DRAWL <= '0'; PLOT <= '0'; ledg <= "00001000"; --colour <= "000"; colour <= sw(2 downto 0); next_state <= DRAW_LINE; WHEN DRAW_LINE => colour <= sw(2 downto 0); resetx <= '0'; resety <= '0'; incr_y <= '0'; incr_x <= '0'; INITL <= '0'; DRAWL <= '1'; PLOT <= '1'; ledg <= "00010000"; --If line is done drawing, move to finished line (DONE_LINE) state IF (LDONE = '1') THEN ledg <= "11111111"; next_state <= DONE_LINE; ELSE next_state <= DRAW_LINE; END IF; WHEN DONE_LINE => resetx <= '0'; resety <= '0'; incr_y <= '0'; incr_x <= '0'; INITL <= '0'; DRAWL <= '0'; PLOT <= '0'; next_state <= LOAD_INPUT; WHEN others => resetx <= '0'; resety <= '0'; incr_y <= '0'; incr_x <= '0'; INITL <= '0'; DRAWL <= '0'; PLOT <= '0'; next_state <= DONE_LINE; END CASE; END PROCESS; END behavioural;
-------------------------------------------------------------------------------- -- Author: Parham Alvani (parham.alvani@gmail.com) -- -- Create Date: 03-03-2016 -- Module Name: p4-4.vhd -------------------------------------------------------------------------------- library IEEE; use IEEE.std_logic_1164.all; entity carry_look_ahead_adder is generic (N : natural := 4); port (a, b : in std_logic_vector(N - 1 downto 0); s : out std_logic_vector(N - 1 downto 0); cin : in std_logic; cout : out std_logic); end entity carry_look_ahead_adder; architecture structural of carry_look_ahead_adder is signal P, G : std_logic_vector(N - 1 downto 0); signal C : std_logic_vector(N downto 0); begin C(0) <= cin; cout <= C(N); carry: for I in 1 to N generate C(I) <= G(I - 1) or (P(I - 1) and C(I - 1)); end generate carry; p_and_g: for I in 0 to N - 1 generate P(I) <= a(I) xor b(I); G(I) <= a(I) and b(I); end generate p_and_g; sum: for I in 0 to N - 1 generate s(I) <= a(I) xor b(I) xor C(I); end generate sum; end architecture structural;
-- Library somelib package pack is constant N : natural := 42; end package; use work.pack.all; -- Should get rewritten to somelib.pack package pack2 is constant X : natural := N; end package;
-- -- File Name: NamePkg.vhd -- Design Unit Name: NamePkg -- Revision: STANDARD VERSION -- -- Maintainer: Jim Lewis email: jim@synthworks.com -- Contributor(s): -- Jim Lewis SynthWorks -- -- -- Package Defines -- Data structure for name. -- -- Developed for: -- SynthWorks Design Inc. -- VHDL Training Classes -- 11898 SW 128th Ave. Tigard, Or 97223 -- http://www.SynthWorks.com -- -- Revision History: -- Date Version Description -- 02/2022 2022.02 Added NameLength method to NamePType -- 01/2020 2020.01 Updated Licenses to Apache -- 05/2015 2015.06 Added input to Get to return when not initialized -- 12/2014: 2014.07a Removed initialized pointers which can lead to memory leaks. -- 07/2014: 2014.07 Moved specialization required by CoveragePkg to CoveragePkg -- Separated name handling from message handling to simplify naming -- 06/2010: 0.1 Initial revision -- -- -- This file is part of OSVVM. -- -- Copyright (c) 2010 - 2020 by SynthWorks Design Inc. -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- https://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. -- use std.textio.all ; package NamePkg is type NamePType is protected procedure Set (NameIn : String) ; impure function Get (DefaultName : string := "") return string ; impure function GetOpt return string ; impure function IsSet return boolean ; impure function NameLength return integer ; procedure Clear ; -- clear name procedure Deallocate ; -- effectively alias to clear name end protected NamePType ; end package NamePkg ; --- /////////////////////////////////////////////////////////////////////////// --- /////////////////////////////////////////////////////////////////////////// --- /////////////////////////////////////////////////////////////////////////// package body NamePkg is type NamePType is protected body variable NamePtr : line ; ------------------------------------------------------------ procedure Set (NameIn : String) is ------------------------------------------------------------ begin deallocate(NamePtr) ; NamePtr := new string'(NameIn) ; end procedure Set ; ------------------------------------------------------------ impure function Get (DefaultName : string := "") return string is ------------------------------------------------------------ begin if NamePtr = NULL then return DefaultName ; else return NamePtr.all ; end if ; end function Get ; ------------------------------------------------------------ impure function GetOpt return string is ------------------------------------------------------------ begin if NamePtr = NULL then return NUL & "" ; else return NamePtr.all ; end if ; end function GetOpt ; ------------------------------------------------------------ impure function IsSet return boolean is ------------------------------------------------------------ begin return NamePtr /= NULL ; end function IsSet ; ------------------------------------------------------------ impure function NameLength return integer is ------------------------------------------------------------ begin if NamePtr = NULL then return 0 ; else return NamePtr.all'length ; end if ; end function NameLength ; ------------------------------------------------------------ procedure Clear is -- clear name ------------------------------------------------------------ begin deallocate(NamePtr) ; end procedure Clear ; ------------------------------------------------------------ procedure Deallocate is -- clear name ------------------------------------------------------------ begin Clear ; end procedure Deallocate ; end protected body NamePType ; end package body NamePkg ;
-- counter -- clk: clock input -- en: enable input -- rst: reset input -- dir: direction pin (1 = up, 0 = down) -- q: output library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity counter is generic ( width : positive := 16 ); port ( clk : in std_logic; q : out std_logic_vector(width-1 downto 0) ); end counter; architecture behav of counter is signal cnt : unsigned(width-1 downto 0) := to_unsigned(0, width); begin process begin wait until rising_edge(clk); cnt <= cnt + to_unsigned(1, cnt'length); end process; q <= std_logic_vector(cnt); end behav;
-- counter -- clk: clock input -- en: enable input -- rst: reset input -- dir: direction pin (1 = up, 0 = down) -- q: output library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity counter is generic ( width : positive := 16 ); port ( clk : in std_logic; q : out std_logic_vector(width-1 downto 0) ); end counter; architecture behav of counter is signal cnt : unsigned(width-1 downto 0) := to_unsigned(0, width); begin process begin wait until rising_edge(clk); cnt <= cnt + to_unsigned(1, cnt'length); end process; q <= std_logic_vector(cnt); end behav;
-- counter -- clk: clock input -- en: enable input -- rst: reset input -- dir: direction pin (1 = up, 0 = down) -- q: output library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity counter is generic ( width : positive := 16 ); port ( clk : in std_logic; q : out std_logic_vector(width-1 downto 0) ); end counter; architecture behav of counter is signal cnt : unsigned(width-1 downto 0) := to_unsigned(0, width); begin process begin wait until rising_edge(clk); cnt <= cnt + to_unsigned(1, cnt'length); end process; q <= std_logic_vector(cnt); end behav;
-- counter -- clk: clock input -- en: enable input -- rst: reset input -- dir: direction pin (1 = up, 0 = down) -- q: output library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity counter is generic ( width : positive := 16 ); port ( clk : in std_logic; q : out std_logic_vector(width-1 downto 0) ); end counter; architecture behav of counter is signal cnt : unsigned(width-1 downto 0) := to_unsigned(0, width); begin process begin wait until rising_edge(clk); cnt <= cnt + to_unsigned(1, cnt'length); end process; q <= std_logic_vector(cnt); end behav;
-- counter -- clk: clock input -- en: enable input -- rst: reset input -- dir: direction pin (1 = up, 0 = down) -- q: output library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity counter is generic ( width : positive := 16 ); port ( clk : in std_logic; q : out std_logic_vector(width-1 downto 0) ); end counter; architecture behav of counter is signal cnt : unsigned(width-1 downto 0) := to_unsigned(0, width); begin process begin wait until rising_edge(clk); cnt <= cnt + to_unsigned(1, cnt'length); end process; q <= std_logic_vector(cnt); end behav;
-- counter -- clk: clock input -- en: enable input -- rst: reset input -- dir: direction pin (1 = up, 0 = down) -- q: output library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; entity counter is generic ( width : positive := 16 ); port ( clk : in std_logic; q : out std_logic_vector(width-1 downto 0) ); end counter; architecture behav of counter is signal cnt : unsigned(width-1 downto 0) := to_unsigned(0, width); begin process begin wait until rising_edge(clk); cnt <= cnt + to_unsigned(1, cnt'length); end process; q <= std_logic_vector(cnt); end behav;
-- EMACS settings: -- tab-width: 2; indent-tabs-mode: t -- -- vim: tabstop=2:shiftwidth=2:noexpandtab -- kate: tab-width 2; replace-tabs off; indent-width 2; -- -- ============================================================================ -- Authors: Patrick Lehmann -- -- Module: Generic Xilinx ChipScope ICON wrapper -- -- Description: -- ------------------------------------ -- This module wraps 15 ChipScope ICON IPCore netlists generated from ChipScope -- ICON xco files. The generic parameter PORTS selects the apropriate ICON -- instance with 1 to 15 ICON ControlBus ports. Each ControlBus port is of type -- T_XIL_CHIPSCOPE_CONTROL and of mode 'inout'. -- -- PoC IPCore compiler: -- ------------------------------------ -- Please use the provided PoC netlist compiler tool to recreate the needed source -- and netlist files on your computer. -- -- cd <PoCRoot>\netlist -- .\netlist.ps1 -rl --coregen PoC.xil.ChipScopeICON_1 --board KC705 -- [...] -- .\netlist.ps1 -rl --coregen PoC.xil.ChipScopeICON_15 --board KC705 -- -- License: -- ============================================================================ -- Copyright 2007-2015 Technische Universitaet Dresden - Germany -- Chair for VLSI-Design, Diagnostics and Architecture -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. -- ============================================================================ library IEEE; use IEEE.STD_LOGIC_1164.all; library PoC; use PoC.xil.all; entity xil_ChipScopeICON is generic ( PORTS : POSITIVE ); port ( ControlBus : inout T_XIL_CHIPSCOPE_CONTROL_VECTOR(PORTS - 1 downto 0) ); end entity; architecture rtl of xil_ChipScopeICON is begin assert (PORTS < 16) report "To many ICON control ports." severity failure; genICON1 : if (PORTS = 1) generate ICON : entity PoC.xil_ChipScopeICON_1 port map ( control0 => ControlBus(0) ); end generate; genICON2 : if (PORTS = 2) generate ICON : entity PoC.xil_ChipScopeICON_2 port map ( control0 => ControlBus(0), control1 => ControlBus(1) ); end generate; genICON3 : if (PORTS = 3) generate ICON : entity PoC.xil_ChipScopeICON_3 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2) ); end generate; genICON4 : if (PORTS = 4) generate ICON : entity PoC.xil_ChipScopeICON_4 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3) ); end generate; genICON5 : if (PORTS = 5) generate ICON : entity PoC.xil_ChipScopeICON_5 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4) ); end generate; genICON6 : if (PORTS = 6) generate ICON : entity PoC.xil_ChipScopeICON_6 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5) ); end generate; genICON7 : if (PORTS = 7) generate ICON : entity PoC.xil_ChipScopeICON_7 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6) ); end generate; genICON8 : if (PORTS = 8) generate ICON : entity PoC.xil_ChipScopeICON_8 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7) ); end generate; genICON9 : if (PORTS = 9) generate ICON : entity PoC.xil_ChipScopeICON_9 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8) ); end generate; genICON10 : if (PORTS = 10) generate ICON : entity PoC.xil_ChipScopeICON_10 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9) ); end generate; genICON11 : if (PORTS = 11) generate ICON : entity PoC.xil_ChipScopeICON_11 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9), control10 => ControlBus(10) ); end generate; genICON12 : if (PORTS = 12) generate ICON : entity PoC.xil_ChipScopeICON_12 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9), control10 => ControlBus(10), control11 => ControlBus(11) ); end generate; genICON13 : if (PORTS = 13) generate ICON : entity PoC.xil_ChipScopeICON_13 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9), control10 => ControlBus(10), control11 => ControlBus(11), control12 => ControlBus(12) ); end generate; genICON14 : if (PORTS = 14) generate ICON : entity PoC.xil_ChipScopeICON_14 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9), control10 => ControlBus(10), control11 => ControlBus(11), control12 => ControlBus(12), control13 => ControlBus(13) ); end generate; genICON15 : if (PORTS = 15) generate ICON : entity PoC.xil_ChipScopeICON_15 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9), control10 => ControlBus(10), control11 => ControlBus(11), control12 => ControlBus(12), control13 => ControlBus(13), control14 => ControlBus(14) ); end generate; end architecture;
-- EMACS settings: -- tab-width: 2; indent-tabs-mode: t -- -- vim: tabstop=2:shiftwidth=2:noexpandtab -- kate: tab-width 2; replace-tabs off; indent-width 2; -- -- ============================================================================ -- Authors: Patrick Lehmann -- -- Module: Generic Xilinx ChipScope ICON wrapper -- -- Description: -- ------------------------------------ -- This module wraps 15 ChipScope ICON IPCore netlists generated from ChipScope -- ICON xco files. The generic parameter PORTS selects the apropriate ICON -- instance with 1 to 15 ICON ControlBus ports. Each ControlBus port is of type -- T_XIL_CHIPSCOPE_CONTROL and of mode 'inout'. -- -- PoC IPCore compiler: -- ------------------------------------ -- Please use the provided PoC netlist compiler tool to recreate the needed source -- and netlist files on your computer. -- -- cd <PoCRoot>\netlist -- .\netlist.ps1 -rl --coregen PoC.xil.ChipScopeICON_1 --board KC705 -- [...] -- .\netlist.ps1 -rl --coregen PoC.xil.ChipScopeICON_15 --board KC705 -- -- License: -- ============================================================================ -- Copyright 2007-2015 Technische Universitaet Dresden - Germany -- Chair for VLSI-Design, Diagnostics and Architecture -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. -- ============================================================================ library IEEE; use IEEE.STD_LOGIC_1164.all; library PoC; use PoC.xil.all; entity xil_ChipScopeICON is generic ( PORTS : POSITIVE ); port ( ControlBus : inout T_XIL_CHIPSCOPE_CONTROL_VECTOR(PORTS - 1 downto 0) ); end entity; architecture rtl of xil_ChipScopeICON is begin assert (PORTS < 16) report "To many ICON control ports." severity failure; genICON1 : if (PORTS = 1) generate ICON : entity PoC.xil_ChipScopeICON_1 port map ( control0 => ControlBus(0) ); end generate; genICON2 : if (PORTS = 2) generate ICON : entity PoC.xil_ChipScopeICON_2 port map ( control0 => ControlBus(0), control1 => ControlBus(1) ); end generate; genICON3 : if (PORTS = 3) generate ICON : entity PoC.xil_ChipScopeICON_3 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2) ); end generate; genICON4 : if (PORTS = 4) generate ICON : entity PoC.xil_ChipScopeICON_4 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3) ); end generate; genICON5 : if (PORTS = 5) generate ICON : entity PoC.xil_ChipScopeICON_5 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4) ); end generate; genICON6 : if (PORTS = 6) generate ICON : entity PoC.xil_ChipScopeICON_6 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5) ); end generate; genICON7 : if (PORTS = 7) generate ICON : entity PoC.xil_ChipScopeICON_7 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6) ); end generate; genICON8 : if (PORTS = 8) generate ICON : entity PoC.xil_ChipScopeICON_8 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7) ); end generate; genICON9 : if (PORTS = 9) generate ICON : entity PoC.xil_ChipScopeICON_9 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8) ); end generate; genICON10 : if (PORTS = 10) generate ICON : entity PoC.xil_ChipScopeICON_10 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9) ); end generate; genICON11 : if (PORTS = 11) generate ICON : entity PoC.xil_ChipScopeICON_11 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9), control10 => ControlBus(10) ); end generate; genICON12 : if (PORTS = 12) generate ICON : entity PoC.xil_ChipScopeICON_12 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9), control10 => ControlBus(10), control11 => ControlBus(11) ); end generate; genICON13 : if (PORTS = 13) generate ICON : entity PoC.xil_ChipScopeICON_13 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9), control10 => ControlBus(10), control11 => ControlBus(11), control12 => ControlBus(12) ); end generate; genICON14 : if (PORTS = 14) generate ICON : entity PoC.xil_ChipScopeICON_14 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9), control10 => ControlBus(10), control11 => ControlBus(11), control12 => ControlBus(12), control13 => ControlBus(13) ); end generate; genICON15 : if (PORTS = 15) generate ICON : entity PoC.xil_ChipScopeICON_15 port map ( control0 => ControlBus(0), control1 => ControlBus(1), control2 => ControlBus(2), control3 => ControlBus(3), control4 => ControlBus(4), control5 => ControlBus(5), control6 => ControlBus(6), control7 => ControlBus(7), control8 => ControlBus(8), control9 => ControlBus(9), control10 => ControlBus(10), control11 => ControlBus(11), control12 => ControlBus(12), control13 => ControlBus(13), control14 => ControlBus(14) ); end generate; end architecture;
library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; library work; use work.mem_bus_pkg.all; use work.io_bus_pkg.all; entity mm_drive_cpu is generic ( g_disk_tag : std_logic_vector(7 downto 0) := X"03"; g_cpu_tag : std_logic_vector(7 downto 0) := X"02"; g_ram_base : unsigned(27 downto 0) := X"0060000" ); port ( clock : in std_logic; falling : in std_logic; rising : in std_logic; reset : in std_logic; tick_1kHz : in std_logic; tick_4MHz : in std_logic; -- Drive Type drive_type : in natural range 0 to 2 := 0; -- 0 = 1541, 1 = 1571, 2 = 1581 -- serial bus pins atn_o : out std_logic; -- open drain atn_i : in std_logic; clk_o : out std_logic; -- open drain clk_i : in std_logic; data_o : out std_logic; -- open drain data_i : in std_logic; fast_clk_o : out std_logic; -- open drain fast_clk_i : in std_logic; -- Parallel cable connection par_data_o : out std_logic_vector(7 downto 0); par_data_t : out std_logic_vector(7 downto 0); par_data_i : in std_logic_vector(7 downto 0); par_hsout_o : out std_logic; par_hsout_t : out std_logic; par_hsout_i : in std_logic; par_hsin_o : out std_logic; par_hsin_t : out std_logic; par_hsin_i : in std_logic; -- Debug port debug_data : out std_logic_vector(31 downto 0); debug_valid : out std_logic; -- Configuration extra_ram : in std_logic := '0'; -- memory interface mem_req_cpu : out t_mem_req; mem_resp_cpu : in t_mem_resp; mem_req_disk : out t_mem_req; mem_resp_disk : in t_mem_resp; mem_busy : out std_logic; -- I/O bus to access WD177x io_req : in t_io_req; io_resp : out t_io_resp; io_irq : out std_logic; -- Sound motor_sound_on : out std_logic; -- drive pins power : in std_logic; drive_address : in std_logic_vector(1 downto 0); write_prot_n : in std_logic; byte_ready : in std_logic; sync : in std_logic; rdy_n : in std_logic; disk_change_n : in std_logic; track_0 : in std_logic; track : in unsigned(6 downto 0); motor_on : out std_logic; mode : out std_logic; stepper_en : out std_logic; step : out std_logic_vector(1 downto 0); rate_ctrl : out std_logic_vector(1 downto 0); side : out std_logic; two_MHz : out std_logic; drv_rdata : in std_logic_vector(7 downto 0); drv_wdata : out std_logic_vector(7 downto 0); power_led : out std_logic; act_led : out std_logic ); end entity; architecture structural of mm_drive_cpu is signal so_n : std_logic; signal cpu_write : std_logic; signal cpu_wdata : std_logic_vector(7 downto 0); signal cpu_rdata : std_logic_vector(7 downto 0); signal cpu_addr : std_logic_vector(16 downto 0); signal cpu_irqn : std_logic; signal ext_rdata : std_logic_vector(7 downto 0) := X"00"; signal via1_data : std_logic_vector(7 downto 0); signal via2_data : std_logic_vector(7 downto 0); signal via1_wen : std_logic; signal via1_ren : std_logic; signal via2_wen : std_logic; signal via2_ren : std_logic; signal cia_data : std_logic_vector(7 downto 0); signal cia_wen : std_logic; signal cia_ren : std_logic; signal wd_data : std_logic_vector(7 downto 0); signal wd_wen : std_logic; signal wd_ren : std_logic; signal cia_port_a_o : std_logic_vector(7 downto 0); signal cia_port_a_t : std_logic_vector(7 downto 0); signal cia_port_b_o : std_logic_vector(7 downto 0); signal cia_port_b_t : std_logic_vector(7 downto 0); signal cia_sp_o : std_logic; signal cia_sp_i : std_logic; signal cia_sp_t : std_logic; signal cia_cnt_o : std_logic; signal cia_cnt_i : std_logic; signal cia_cnt_t : std_logic; signal cia_irq : std_logic; signal cia_pc_o : std_logic; signal cia_flag_i : std_logic; signal via1_port_a_o : std_logic_vector(7 downto 0); signal via1_port_a_t : std_logic_vector(7 downto 0); signal via1_ca2_o : std_logic; signal via1_ca2_t : std_logic; signal via1_cb1_o : std_logic; signal via1_cb1_t : std_logic; signal via1_port_b_o : std_logic_vector(7 downto 0); signal via1_port_b_t : std_logic_vector(7 downto 0); signal via1_port_b_i : std_logic_vector(7 downto 0); signal via1_ca1 : std_logic; signal via1_cb2_o : std_logic; signal via1_cb2_i : std_logic; signal via1_cb2_t : std_logic; signal via1_irq : std_logic; signal via2_port_b_o : std_logic_vector(7 downto 0); signal via2_port_b_t : std_logic_vector(7 downto 0); signal via2_port_b_i : std_logic_vector(7 downto 0); signal via2_ca2_o : std_logic; signal via2_ca2_i : std_logic; signal via2_ca2_t : std_logic; signal via2_cb1_o : std_logic; signal via2_cb1_i : std_logic; signal via2_cb1_t : std_logic; signal via2_cb2_o : std_logic; signal via2_cb2_i : std_logic; signal via2_cb2_t : std_logic; signal via2_irq : std_logic; -- Local signals signal my_fast_data_out : std_logic; signal fast_clk_o_i : std_logic; signal cpu_clk_en : std_logic; signal cpu_rising : std_logic; type t_mem_state is (idle, newcycle, extcycle); signal mem_state : t_mem_state; signal ext_sel : std_logic; -- "old" style signals signal mem_request : std_logic; signal mem_addr : unsigned(25 downto 0); signal mem_rwn : std_logic; signal mem_rack : std_logic; signal mem_dack : std_logic; signal mem_wdata : std_logic_vector(7 downto 0); type t_drive_mode_bundle is record -- address decode via1_sel : std_logic; via2_sel : std_logic; wd_sel : std_logic; cia_sel : std_logic; open_sel : std_logic; -- internal cia_port_a_i : std_logic_vector(7 downto 0); cia_port_b_i : std_logic_vector(7 downto 0); cia_flag_i : std_logic; via1_port_a_i : std_logic_vector(7 downto 0); via1_cb1_i : std_logic; via1_ca2_i : std_logic; fast_ser_dir : std_logic; soe : std_logic; step : std_logic_vector(1 downto 0); stepper_en : std_logic; wd_stepper : std_logic; -- Parallel cable par_data_o : std_logic_vector(7 downto 0); par_data_t : std_logic_vector(7 downto 0); par_hsout_o : std_logic; par_hsout_t : std_logic; par_hsin_o : std_logic; par_hsin_t : std_logic; -- export side : std_logic; two_MHz : std_logic; act_led : std_logic; power_led : std_logic; motor_on : std_logic; motor_sound_on : std_logic; clk_o : std_logic; data_o : std_logic; atn_o : std_logic; end record; type t_drive_mode_bundles is array(natural range <>) of t_drive_mode_bundle; signal m : t_drive_mode_bundles(0 to 2); signal mm : t_drive_mode_bundle; begin mem_req_cpu.request <= mem_request; mem_req_cpu.address <= mem_addr; mem_req_cpu.read_writen <= mem_rwn; mem_req_cpu.data <= mem_wdata; mem_req_cpu.tag <= g_cpu_tag; mem_req_cpu.size <= "00"; -- 1 byte at a time mem_rack <= '1' when mem_resp_cpu.rack_tag = g_cpu_tag else '0'; mem_dack <= '1' when mem_resp_cpu.dack_tag = g_cpu_tag else '0'; cpu: entity work.cpu6502(cycle_exact) port map ( cpu_clk => clock, cpu_clk_en => cpu_clk_en, cpu_reset => reset, cpu_write => cpu_write, cpu_wdata => cpu_wdata, cpu_rdata => cpu_rdata, cpu_addr => cpu_addr, IRQn => cpu_irqn, -- IRQ interrupt (level sensitive) NMIn => '1', SOn => so_n ); -- Generate an output stream to debug internal operation of 1541 CPU process(clock) begin if rising_edge(clock) then debug_valid <= '0'; if cpu_clk_en = '1' then debug_data <= '0' & atn_i & data_i & clk_i & sync & so_n & cpu_irqn & not cpu_write & cpu_rdata & cpu_addr(15 downto 0); debug_valid <= '1'; if cpu_write = '1' then debug_data(23 downto 16) <= cpu_wdata; end if; end if; end if; end process; via1: entity work.via6522 port map ( clock => clock, falling => cpu_clk_en, rising => cpu_rising, reset => reset, addr => cpu_addr(3 downto 0), wen => via1_wen, ren => via1_ren, data_in => cpu_wdata, data_out => via1_data, -- pio -- port_a_o => via1_port_a_o, port_a_t => via1_port_a_t, port_a_i => mm.via1_port_a_i, port_b_o => via1_port_b_o, port_b_t => via1_port_b_t, port_b_i => via1_port_b_i, -- handshake pins ca1_i => via1_ca1, ca2_o => via1_ca2_o, ca2_i => mm.via1_ca2_i, ca2_t => via1_ca2_t, cb1_o => via1_cb1_o, cb1_i => mm.via1_cb1_i, cb1_t => via1_cb1_t, cb2_o => via1_cb2_o, cb2_i => via1_cb2_i, -- not used cb2_t => via1_cb2_t, irq => via1_irq ); via2: entity work.via6522 port map ( clock => clock, falling => cpu_clk_en, rising => cpu_rising, reset => reset, addr => cpu_addr(3 downto 0), wen => via2_wen, ren => via2_ren, data_in => cpu_wdata, data_out => via2_data, -- pio -- port_a_o => drv_wdata, port_a_t => open, port_a_i => drv_rdata, port_b_o => via2_port_b_o, port_b_t => via2_port_b_t, port_b_i => via2_port_b_i, -- handshake pins ca1_i => so_n, ca2_o => via2_ca2_o, ca2_i => via2_ca2_i, -- used as output (SOE) ca2_t => via2_ca2_t, cb1_o => via2_cb1_o, cb1_i => via2_cb1_i, -- not used cb1_t => via2_cb1_t, cb2_o => via2_cb2_o, cb2_i => via2_cb2_i, -- used as output (MODE) cb2_t => via2_cb2_t, irq => via2_irq ); i_cia1: entity work.cia_registers generic map ( g_report => false, g_unit_name => "CIA_1581" ) port map ( clock => clock, falling => falling, reset => reset, tod_pin => '1', -- depends on jumper addr => unsigned(cpu_addr(3 downto 0)), data_in => cpu_wdata, wen => cia_wen, ren => cia_ren, data_out => cia_data, -- pio -- port_a_o => cia_port_a_o, -- unused port_a_t => cia_port_a_t, port_a_i => mm.cia_port_a_i, port_b_o => cia_port_b_o, -- unused port_b_t => cia_port_b_t, port_b_i => mm.cia_port_b_i, -- serial pin sp_o => cia_sp_o, -- Burst mode IEC data sp_i => cia_sp_i, sp_t => cia_sp_t, cnt_i => cia_cnt_i, -- Burst mode IEC clock cnt_o => cia_cnt_o, cnt_t => cia_cnt_t, pc_o => cia_pc_o, flag_i => mm.cia_flag_i, irq => cia_irq ); cpu_irqn <= not(via1_irq or via2_irq or cia_irq); -- Floppy Controller i_wd177x: entity work.wd177x generic map ( g_tag => g_disk_tag ) port map( clock => clock, clock_en => cpu_clk_en, reset => reset, tick_1kHz => tick_1kHz, tick_4MHz => tick_4MHz, addr => unsigned(cpu_addr(1 downto 0)), wen => wd_wen, ren => wd_ren, wdata => cpu_wdata, rdata => wd_data, motor_en => mm.motor_sound_on, stepper_en => mm.wd_stepper, cur_track => track, step => m(2).step, mem_req => mem_req_disk, mem_resp => mem_resp_disk, io_req => io_req, io_resp => io_resp, io_irq => io_irq ); cpu_clk_en <= falling; cpu_rising <= rising; mem_busy <= '0' when mem_state = idle else '1'; -- Fetch ROM / RAM byte process(clock) begin if rising_edge(clock) then mem_addr(25 downto 16) <= g_ram_base(25 downto 16); case mem_state is when idle => if cpu_clk_en = '1' then mem_state <= newcycle; end if; when newcycle => -- we have a new address now mem_addr(15 downto 0) <= unsigned(cpu_addr(15 downto 0)); if cpu_addr(15) = '1' then -- ROM Area, which is not overridden as RAM if cpu_write = '0' then mem_request <= '1'; mem_state <= extcycle; else -- writing to rom -> ignore mem_state <= idle; end if; elsif ext_sel = '1' then -- RAM ONLY! if extra_ram = '0' then if (drive_type = 0) or (drive_type = 1) then mem_addr(14 downto 11) <= "0000"; -- 2K RAM else mem_addr(14 downto 13) <= "00"; -- 8K RAM end if; end if; mem_request <= '1'; mem_state <= extcycle; else mem_state <= idle; end if; when extcycle => if mem_rack='1' then mem_request <= '0'; if cpu_write='1' then mem_state <= idle; end if; end if; if mem_dack='1' and cpu_write='0' then -- only for reads ext_rdata <= mem_resp_cpu.data; mem_state <= idle; end if; when others => null; end case; if reset='1' then mem_request <= '0'; mem_state <= idle; end if; end if; end process; mem_rwn <= not cpu_write; mem_wdata <= cpu_wdata; -- Select drive type mm <= m(drive_type); -- True for all drives via1_ren <= mm.via1_sel and not cpu_write; via2_ren <= mm.via2_sel and not cpu_write; cia_ren <= mm.cia_sel and not cpu_write; wd_ren <= mm.wd_sel and not cpu_write; via1_wen <= mm.via1_sel and cpu_write; via2_wen <= mm.via2_sel and cpu_write; cia_wen <= mm.cia_sel and cpu_write; wd_wen <= mm.wd_sel and cpu_write; -- read data muxing process(mm.via1_sel, mm.via2_sel, mm.cia_sel, mm.wd_sel, ext_rdata, via1_data, via2_data, cia_data, wd_data) variable rdata : std_logic_vector(7 downto 0); begin ext_sel <= '0'; rdata := X"FF"; if mm.via1_sel = '1' then rdata := rdata and via1_data; end if; if mm.via2_sel = '1' then rdata := rdata and via2_data; end if; if mm.cia_sel = '1' then rdata := rdata and cia_data; end if; if mm.wd_sel = '1' then rdata := rdata and wd_data; end if; -- "else" if mm.via1_sel = '0' and mm.via2_sel = '0' and mm.cia_sel = '0' and mm.wd_sel = '0' and mm.open_sel = '0' then rdata := rdata and ext_rdata; ext_sel <= '1'; end if; cpu_rdata <= rdata; end process; -- DRIVE SPECIFICS -- Address decoding 1541 m(0).via1_sel <= '1' when cpu_addr(12 downto 10)="110" and cpu_addr(15)='0' and (extra_ram='0' or cpu_addr(14 downto 13)="00") else '0'; m(0).via2_sel <= '1' when cpu_addr(12 downto 10)="111" and cpu_addr(15)='0' and (extra_ram='0' or cpu_addr(14 downto 13)="00") else '0'; m(0).open_sel <= '1' when (cpu_addr(12) xor cpu_addr(11)) = '1' and cpu_addr(15) = '0' and extra_ram = '0' else '0'; m(0).cia_sel <= '0'; m(0).wd_sel <= '0'; -- Address decoding 1571 m(1).via1_sel <= '1' when cpu_addr(15 downto 10)="000110" else '0'; m(1).via2_sel <= '1' when cpu_addr(15 downto 10)="000111" else '0'; m(1).open_sel <= '1' when (cpu_addr(15 downto 11)="00001" or cpu_addr(15 downto 11) = "00010") and extra_ram = '0' else '0'; m(1).cia_sel <= '1' when cpu_addr(15 downto 14)="01" else '0'; m(1).wd_sel <= '1' when cpu_addr(15 downto 13)="001" else '0'; -- Address decoding 1581 m(2).via1_sel <= '0'; m(2).via2_sel <= '0'; m(2).open_sel <= '1' when cpu_addr(15 downto 13)="001" and extra_ram = '0' else '0'; -- 2000 m(2).cia_sel <= '1' when cpu_addr(15 downto 13)="010" else '0'; -- 4000 m(2).wd_sel <= '1' when cpu_addr(15 downto 13)="011" else '0'; -- 6000 -- Control signals 1541 m(0).side <= '0'; m(0).two_MHz <= '0'; m(0).fast_ser_dir <= '0'; -- by setting this to input, the fast_clk_o is never driven, and because the CIA is never -- selected, receiving fast_clk_i will never cause issues m(0).soe <= via2_ca2_i; m(0).cia_port_a_i <= cia_port_a_o or not cia_port_a_t; -- don't care m(0).cia_port_b_i <= cia_port_b_o or not cia_port_b_t; -- don't care m(0).cia_flag_i <= '1'; m(0).power_led <= '1'; -- Control signals 1571 m(1).side <= m(1).via1_port_a_i(2); m(1).two_MHz <= m(1).via1_port_a_i(5); m(1).fast_ser_dir <= m(1).via1_port_a_i(1); m(1).soe <= via2_ca2_i; m(1).cia_port_a_i <= cia_port_a_o or not cia_port_a_t; -- CIA ports are not used -- m(1).cia_port_b_i <= cia_port_b_o or not cia_port_b_t; -- CIA ports are not used m(1).power_led <= '1'; -- Control signals 1581 m(2).side <= m(2).cia_port_a_i(0); m(2).two_MHz <= '1'; m(2).fast_ser_dir <= m(2).cia_port_b_i(5); m(2).soe <= '0'; ----------------------------------------- -- 1581 section ----------------------------------------- b_1581: block signal atn_ack : std_logic; signal my_data_out : std_logic; signal clock_out : std_logic; begin m(2).cia_port_b_i(7) <= not atn_i; -- assume that this signal (from 74LS14) wins m(2).cia_port_b_i(6) <= (cia_port_b_o(6) or not cia_port_b_t(6)) and write_prot_n; m(2).cia_port_b_i(5) <= (cia_port_b_o(5) or not cia_port_b_t(5)); m(2).cia_port_b_i(4) <= (cia_port_b_o(4) or not cia_port_b_t(4)); m(2).cia_port_b_i(3) <= (cia_port_b_o(3) or not cia_port_b_t(3)); m(2).cia_port_b_i(2) <= not clk_i; -- assume that this signal (from 74LS14) wins m(2).cia_port_b_i(1) <= (cia_port_b_o(1) or not cia_port_b_t(1)); m(2).cia_port_b_i(0) <= not data_i; m(2).cia_port_a_i(7) <= (cia_port_a_o(7) or not cia_port_a_t(7)) and disk_change_n; m(2).cia_port_a_i(6) <= (cia_port_a_o(6) or not cia_port_a_t(6)); m(2).cia_port_a_i(5) <= (cia_port_a_o(5) or not cia_port_a_t(5)); m(2).cia_port_a_i(4) <= (cia_port_a_o(4) or not cia_port_a_t(4)) and drive_address(1); m(2).cia_port_a_i(3) <= (cia_port_a_o(3) or not cia_port_a_t(3)) and drive_address(0); m(2).cia_port_a_i(2) <= (cia_port_a_o(2) or not cia_port_a_t(2)); m(2).cia_port_a_i(1) <= (cia_port_a_o(1) or not cia_port_a_t(1)) and rdy_n; m(2).cia_port_a_i(0) <= (cia_port_a_o(0) or not cia_port_a_t(0)); m(2).cia_flag_i <= atn_i; -- active low atn signal m(2).data_o <= not my_data_out and not (atn_ack and not atn_i) and my_fast_data_out; m(2).clk_o <= not clock_out; m(2).atn_o <= '1'; -- Parallel Cable not defined m(2).par_data_o <= X"FF"; m(2).par_data_t <= X"00"; m(2).par_hsout_o <= '1'; m(2).par_hsout_t <= '0'; m(2).par_hsin_o <= '1'; m(2).par_hsin_t <= '0'; -- write_prot_n_i <= cia_port_b_i(6); atn_ack <= m(2).cia_port_b_i(4); clock_out <= m(2).cia_port_b_i(3); my_data_out <= m(2).cia_port_b_i(1); --disk_change_n_i <= cia_port_a_i(7); m(2).act_led <= m(2).cia_port_a_i(6); m(2).power_led <= m(2).cia_port_a_i(5); --drive_address_i(1) <= cia_port_a_i(4); --drive_address_i(0) <= cia_port_a_i(3); m(2).motor_sound_on <= not m(2).cia_port_a_i(2); --rdy_n_i <= cia_port_a_i(1); --side_0_i <= cia_port_a_i(0); end block; -- correctly attach the VIA pins to the outside world via1_ca1 <= not atn_i; via1_cb2_i <= via1_cb2_o or not via1_cb2_t; via2_cb1_i <= via2_cb1_o or not via2_cb1_t; via2_cb2_i <= via2_cb2_o or not via2_cb2_t; via2_ca2_i <= via2_ca2_o or not via2_ca2_t; -- Via Port A is used in the 1541 for the parallel interface (SpeedDos / DolphinDos), but in the 1571 some of the pins are connected internally m(0).via1_cb1_i <= par_hsin_i; m(1).via1_cb1_i <= via1_cb1_o or not via1_cb1_t; m(2).via1_cb1_i <= via1_cb1_o or not via1_cb1_t; m(0).par_data_o <= via1_port_a_o; m(0).par_data_t <= via1_port_a_t; m(0).par_hsout_o <= via1_ca2_o; m(0).par_hsout_t <= via1_ca2_t; m(0).par_hsin_o <= via1_cb1_o; m(0).par_hsin_t <= via1_cb1_t; m(0).via1_port_a_i <= par_data_i; m(1).via1_port_a_i(7) <= (via1_port_a_o(7) or not via1_port_a_t(7)) and so_n; -- Byte ready in schematic. Our byte_ready signal is not yet masked with so_e m(1).via1_port_a_i(6) <= (via1_port_a_o(6) or not via1_port_a_t(6)); -- ATN OUT (not connected) m(1).via1_port_a_i(5) <= (via1_port_a_o(5) or not via1_port_a_t(5)); -- 2 MHz mode m(1).via1_port_a_i(4) <= (via1_port_a_o(4) or not via1_port_a_t(4)); m(1).via1_port_a_i(3) <= (via1_port_a_o(3) or not via1_port_a_t(3)); m(1).via1_port_a_i(2) <= (via1_port_a_o(2) or not via1_port_a_t(2)); -- SIDE m(1).via1_port_a_i(1) <= (via1_port_a_o(1) or not via1_port_a_t(1)); -- SER_DIR m(1).via1_port_a_i(0) <= not track_0; -- assuming that the LS14 always wins m(2).via1_port_a_i <= X"FF"; -- Don't care. m(0).via1_ca2_i <= par_hsout_i; m(1).via1_ca2_i <= write_prot_n; -- only in 1571 m(2).via1_ca2_i <= '1'; -- Do the same for VIA 2. Port A should read the pin, Port B reads the output internally, so for port B only actual input signals should be connected via2_port_b_i(7) <= sync; via2_port_b_i(6) <= '1'; --Density via2_port_b_i(5) <= '1'; --Density via2_port_b_i(4) <= write_prot_n; via2_port_b_i(3) <= '1'; -- LED via2_port_b_i(2) <= '1'; -- Motor via2_port_b_i(1) <= '1'; -- Step via2_port_b_i(0) <= '1'; -- Step b1541_1571: block signal atn_ack : std_logic; signal my_clk_out : std_logic; signal my_data_out : std_logic; begin atn_ack <= via1_port_b_o(4) or not via1_port_b_t(4); my_data_out <= via1_port_b_o(1) or not via1_port_b_t(1); my_clk_out <= via1_port_b_o(3) or not via1_port_b_t(3); -- Serial bus pins 1541 m(0).data_o <= not my_data_out and (not (atn_ack xor (not atn_i))); m(0).clk_o <= not my_clk_out; m(0).atn_o <= '1'; -- Serial bus pins 1571 m(1).data_o <= not my_data_out and my_fast_data_out and (not (atn_ack xor (not atn_i))); m(1).clk_o <= not my_clk_out; m(1).atn_o <= '1'; -- Because Port B reads its own output when set to output, we do not need to consider the direction here via1_port_b_i(7) <= not atn_i; via1_port_b_i(6) <= drive_address(1); -- drive select via1_port_b_i(5) <= drive_address(0); -- drive select; via1_port_b_i(4) <= '1'; -- atn a - PUP via1_port_b_i(3) <= '1'; -- clock out - PUP via1_port_b_i(2) <= not (clk_i and not my_clk_out); via1_port_b_i(1) <= '1'; -- data out - PUP via1_port_b_i(0) <= not (data_i and not my_data_out and (not (atn_ack xor (not atn_i)))); -- Parallel Cable connects to 6526 port B on a 1571 m(1).cia_port_b_i <= par_data_i; m(1).cia_flag_i <= par_hsin_i; m(1).par_data_o <= cia_port_b_o; m(1).par_data_t <= cia_port_b_t; m(1).par_hsout_o <= cia_pc_o; m(1).par_hsout_t <= '1'; -- PC is always output m(1).par_hsin_o <= '1'; m(1).par_hsin_t <= '0'; -- FLAG is always input end block; m(0).act_led <= (via2_port_b_o(3) or not via2_port_b_t(3)); m(1).act_led <= (via2_port_b_o(3) or not via2_port_b_t(3)); m(0).motor_on <= (via2_port_b_o(2) or not via2_port_b_t(2)); m(1).motor_on <= (via2_port_b_o(2) or not via2_port_b_t(2)); m(2).motor_on <= '0'; -- disable memory access to GCR memory m(0).motor_sound_on <= m(0).motor_on; m(1).motor_sound_on <= m(1).motor_on; m(0).step(0) <= via2_port_b_o(0) or not via2_port_b_t(0); m(0).step(1) <= via2_port_b_o(1) or not via2_port_b_t(1); m(1).step(0) <= via2_port_b_o(0) or not via2_port_b_t(0); m(1).step(1) <= via2_port_b_o(1) or not via2_port_b_t(1); m(0).wd_stepper <= '0'; m(1).wd_stepper <= '0'; m(2).wd_stepper <= '1'; m(0).stepper_en <= m(0).motor_on; m(1).stepper_en <= m(1).motor_on; m(2).stepper_en <= '1'; mode <= via2_cb2_i; -- don't care for 1581 rate_ctrl(0) <= via2_port_b_o(5) or not via2_port_b_t(5); -- don't care for 1581 rate_ctrl(1) <= via2_port_b_o(6) or not via2_port_b_t(6); -- don't care for 1581 so_n <= byte_ready or not mm.soe; -- soe will be '0' for 1581 -- This applies to 1571 and 1581 -- my_fast_data_out and fast_clk_o will be '1' for 1541, because fast_ser_dir is defined as '0' for 1541. my_fast_data_out <= (cia_sp_o or not cia_sp_t) or not mm.fast_ser_dir; -- active low! cia_sp_i <= (cia_sp_o or not cia_sp_t) when mm.fast_ser_dir = '1' else data_i; fast_clk_o_i <= (cia_cnt_o or not cia_cnt_t) or not mm.fast_ser_dir; -- active low! cia_cnt_i <= (cia_cnt_o or not cia_cnt_t) when mm.fast_ser_dir = '1' else -- output fast_clk_i; -- assume that 74LS241 wins -- Export Inside drive stepper_en <= mm.stepper_en; step <= mm.step; side <= mm.side; two_MHz <= mm.two_MHz; -- Export to outside world motor_sound_on <= power and mm.motor_sound_on; -- internally active high, externally active high motor_on <= power and mm.motor_on; -- internally active high, externally active high power_led <= not (power and mm.power_led); -- internally active high, externally active low act_led <= not (power and mm.act_led); -- internally active high, externally active low clk_o <= not power or mm.clk_o; -- internally active low, externally active low data_o <= not power or mm.data_o; -- internally active low, externally active low atn_o <= not power or mm.atn_o; -- internally active low, externally active low fast_clk_o <= not power or fast_clk_o_i; -- internally active low, externally active low -- Parallel cable out par_data_o <= mm.par_data_o; par_data_t <= mm.par_data_t; par_hsout_o <= mm.par_hsout_o; par_hsout_t <= mm.par_hsout_t; par_hsin_o <= mm.par_hsin_o; par_hsin_t <= mm.par_hsin_t; end architecture;
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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block CQirmkq/BKqR+F2Yg4UkWTIdFrTRgyk4k2iLzfwHOmDbkUM55Mewqizh4+Lf+dmwwhALeC71UJDA 8mCAPTmMHA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BYObDmDa8ddFsyZLooUzpHL8ns08oRugCcZI2k8wJ7bPNu9wkzUe6gLxEl5Rus5mNXhYLj63VAJ7 Iv4x/x3ytUfhu3Rr/6uxmrwyULLvv11XEvyVGCHx4t+Dw8cVgkM3usRkRQjUSA971GtmeHD/8MvS cZY9jYskPE1Jpp2ln4o= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Kh2guWzq3vblhcxdfJUid0wZnG6MC3o3a3YO1P6t3Zu5fbaVoJKIAXW4U451VmelQdzOKVHousSk 45IlwBxf/RYbtIg9YdXFrqworoOKKYA8Ps20E3y76/ejy57L44f0vm/NoFaa8+RGMVOrMaXWkAX/ 5m2QReWMg9vAFlHZfrIsQnJM7q9vDbH/9XlzT7azdJd5gljApTrMFtiNcALEiKPoDWNj9DKTR/5M z6fXEbBnQi7svJI++6ajKLfscdCdmkML0xv5aJaja/A6sBU3ZyweO65mSDcAEiF4/LGSrOI+kROs k5jflROeFMl/1IvGNyU4OxK3jsBOPTmAsiyzeQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ybTxbKW8ZHek5yeUP9rGjX5z9pX54PPpKlEu/sk4QGiMGrMi9n6exyltQw3382l1i1u3uPUdj71P S8JZfrL7/T6Wx0syH1SqEmm7l5ELtT4AmtRRmr7PjBfr1/vMkuv09pkrXQw9kL/r54fCF2RBbGri s7+5RYH/ioAS6hXm/iY= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Lzavdu/+bN8Q3cXw7+sJQn/P0yOfwv/fFtLcbHiKvjYFgahsXpekRbm3lL0aoljDYfGXg0j67Y/J 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block CQirmkq/BKqR+F2Yg4UkWTIdFrTRgyk4k2iLzfwHOmDbkUM55Mewqizh4+Lf+dmwwhALeC71UJDA 8mCAPTmMHA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BYObDmDa8ddFsyZLooUzpHL8ns08oRugCcZI2k8wJ7bPNu9wkzUe6gLxEl5Rus5mNXhYLj63VAJ7 Iv4x/x3ytUfhu3Rr/6uxmrwyULLvv11XEvyVGCHx4t+Dw8cVgkM3usRkRQjUSA971GtmeHD/8MvS cZY9jYskPE1Jpp2ln4o= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Kh2guWzq3vblhcxdfJUid0wZnG6MC3o3a3YO1P6t3Zu5fbaVoJKIAXW4U451VmelQdzOKVHousSk 45IlwBxf/RYbtIg9YdXFrqworoOKKYA8Ps20E3y76/ejy57L44f0vm/NoFaa8+RGMVOrMaXWkAX/ 5m2QReWMg9vAFlHZfrIsQnJM7q9vDbH/9XlzT7azdJd5gljApTrMFtiNcALEiKPoDWNj9DKTR/5M z6fXEbBnQi7svJI++6ajKLfscdCdmkML0xv5aJaja/A6sBU3ZyweO65mSDcAEiF4/LGSrOI+kROs k5jflROeFMl/1IvGNyU4OxK3jsBOPTmAsiyzeQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ybTxbKW8ZHek5yeUP9rGjX5z9pX54PPpKlEu/sk4QGiMGrMi9n6exyltQw3382l1i1u3uPUdj71P S8JZfrL7/T6Wx0syH1SqEmm7l5ELtT4AmtRRmr7PjBfr1/vMkuv09pkrXQw9kL/r54fCF2RBbGri s7+5RYH/ioAS6hXm/iY= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Lzavdu/+bN8Q3cXw7+sJQn/P0yOfwv/fFtLcbHiKvjYFgahsXpekRbm3lL0aoljDYfGXg0j67Y/J 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block CQirmkq/BKqR+F2Yg4UkWTIdFrTRgyk4k2iLzfwHOmDbkUM55Mewqizh4+Lf+dmwwhALeC71UJDA 8mCAPTmMHA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BYObDmDa8ddFsyZLooUzpHL8ns08oRugCcZI2k8wJ7bPNu9wkzUe6gLxEl5Rus5mNXhYLj63VAJ7 Iv4x/x3ytUfhu3Rr/6uxmrwyULLvv11XEvyVGCHx4t+Dw8cVgkM3usRkRQjUSA971GtmeHD/8MvS cZY9jYskPE1Jpp2ln4o= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Kh2guWzq3vblhcxdfJUid0wZnG6MC3o3a3YO1P6t3Zu5fbaVoJKIAXW4U451VmelQdzOKVHousSk 45IlwBxf/RYbtIg9YdXFrqworoOKKYA8Ps20E3y76/ejy57L44f0vm/NoFaa8+RGMVOrMaXWkAX/ 5m2QReWMg9vAFlHZfrIsQnJM7q9vDbH/9XlzT7azdJd5gljApTrMFtiNcALEiKPoDWNj9DKTR/5M z6fXEbBnQi7svJI++6ajKLfscdCdmkML0xv5aJaja/A6sBU3ZyweO65mSDcAEiF4/LGSrOI+kROs k5jflROeFMl/1IvGNyU4OxK3jsBOPTmAsiyzeQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ybTxbKW8ZHek5yeUP9rGjX5z9pX54PPpKlEu/sk4QGiMGrMi9n6exyltQw3382l1i1u3uPUdj71P S8JZfrL7/T6Wx0syH1SqEmm7l5ELtT4AmtRRmr7PjBfr1/vMkuv09pkrXQw9kL/r54fCF2RBbGri s7+5RYH/ioAS6hXm/iY= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Lzavdu/+bN8Q3cXw7+sJQn/P0yOfwv/fFtLcbHiKvjYFgahsXpekRbm3lL0aoljDYfGXg0j67Y/J 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block CQirmkq/BKqR+F2Yg4UkWTIdFrTRgyk4k2iLzfwHOmDbkUM55Mewqizh4+Lf+dmwwhALeC71UJDA 8mCAPTmMHA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BYObDmDa8ddFsyZLooUzpHL8ns08oRugCcZI2k8wJ7bPNu9wkzUe6gLxEl5Rus5mNXhYLj63VAJ7 Iv4x/x3ytUfhu3Rr/6uxmrwyULLvv11XEvyVGCHx4t+Dw8cVgkM3usRkRQjUSA971GtmeHD/8MvS cZY9jYskPE1Jpp2ln4o= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Kh2guWzq3vblhcxdfJUid0wZnG6MC3o3a3YO1P6t3Zu5fbaVoJKIAXW4U451VmelQdzOKVHousSk 45IlwBxf/RYbtIg9YdXFrqworoOKKYA8Ps20E3y76/ejy57L44f0vm/NoFaa8+RGMVOrMaXWkAX/ 5m2QReWMg9vAFlHZfrIsQnJM7q9vDbH/9XlzT7azdJd5gljApTrMFtiNcALEiKPoDWNj9DKTR/5M z6fXEbBnQi7svJI++6ajKLfscdCdmkML0xv5aJaja/A6sBU3ZyweO65mSDcAEiF4/LGSrOI+kROs k5jflROeFMl/1IvGNyU4OxK3jsBOPTmAsiyzeQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ybTxbKW8ZHek5yeUP9rGjX5z9pX54PPpKlEu/sk4QGiMGrMi9n6exyltQw3382l1i1u3uPUdj71P S8JZfrL7/T6Wx0syH1SqEmm7l5ELtT4AmtRRmr7PjBfr1/vMkuv09pkrXQw9kL/r54fCF2RBbGri s7+5RYH/ioAS6hXm/iY= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Lzavdu/+bN8Q3cXw7+sJQn/P0yOfwv/fFtLcbHiKvjYFgahsXpekRbm3lL0aoljDYfGXg0j67Y/J 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block CQirmkq/BKqR+F2Yg4UkWTIdFrTRgyk4k2iLzfwHOmDbkUM55Mewqizh4+Lf+dmwwhALeC71UJDA 8mCAPTmMHA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BYObDmDa8ddFsyZLooUzpHL8ns08oRugCcZI2k8wJ7bPNu9wkzUe6gLxEl5Rus5mNXhYLj63VAJ7 Iv4x/x3ytUfhu3Rr/6uxmrwyULLvv11XEvyVGCHx4t+Dw8cVgkM3usRkRQjUSA971GtmeHD/8MvS cZY9jYskPE1Jpp2ln4o= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Kh2guWzq3vblhcxdfJUid0wZnG6MC3o3a3YO1P6t3Zu5fbaVoJKIAXW4U451VmelQdzOKVHousSk 45IlwBxf/RYbtIg9YdXFrqworoOKKYA8Ps20E3y76/ejy57L44f0vm/NoFaa8+RGMVOrMaXWkAX/ 5m2QReWMg9vAFlHZfrIsQnJM7q9vDbH/9XlzT7azdJd5gljApTrMFtiNcALEiKPoDWNj9DKTR/5M z6fXEbBnQi7svJI++6ajKLfscdCdmkML0xv5aJaja/A6sBU3ZyweO65mSDcAEiF4/LGSrOI+kROs k5jflROeFMl/1IvGNyU4OxK3jsBOPTmAsiyzeQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ybTxbKW8ZHek5yeUP9rGjX5z9pX54PPpKlEu/sk4QGiMGrMi9n6exyltQw3382l1i1u3uPUdj71P S8JZfrL7/T6Wx0syH1SqEmm7l5ELtT4AmtRRmr7PjBfr1/vMkuv09pkrXQw9kL/r54fCF2RBbGri s7+5RYH/ioAS6hXm/iY= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Lzavdu/+bN8Q3cXw7+sJQn/P0yOfwv/fFtLcbHiKvjYFgahsXpekRbm3lL0aoljDYfGXg0j67Y/J 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block CQirmkq/BKqR+F2Yg4UkWTIdFrTRgyk4k2iLzfwHOmDbkUM55Mewqizh4+Lf+dmwwhALeC71UJDA 8mCAPTmMHA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BYObDmDa8ddFsyZLooUzpHL8ns08oRugCcZI2k8wJ7bPNu9wkzUe6gLxEl5Rus5mNXhYLj63VAJ7 Iv4x/x3ytUfhu3Rr/6uxmrwyULLvv11XEvyVGCHx4t+Dw8cVgkM3usRkRQjUSA971GtmeHD/8MvS cZY9jYskPE1Jpp2ln4o= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Kh2guWzq3vblhcxdfJUid0wZnG6MC3o3a3YO1P6t3Zu5fbaVoJKIAXW4U451VmelQdzOKVHousSk 45IlwBxf/RYbtIg9YdXFrqworoOKKYA8Ps20E3y76/ejy57L44f0vm/NoFaa8+RGMVOrMaXWkAX/ 5m2QReWMg9vAFlHZfrIsQnJM7q9vDbH/9XlzT7azdJd5gljApTrMFtiNcALEiKPoDWNj9DKTR/5M z6fXEbBnQi7svJI++6ajKLfscdCdmkML0xv5aJaja/A6sBU3ZyweO65mSDcAEiF4/LGSrOI+kROs k5jflROeFMl/1IvGNyU4OxK3jsBOPTmAsiyzeQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ybTxbKW8ZHek5yeUP9rGjX5z9pX54PPpKlEu/sk4QGiMGrMi9n6exyltQw3382l1i1u3uPUdj71P S8JZfrL7/T6Wx0syH1SqEmm7l5ELtT4AmtRRmr7PjBfr1/vMkuv09pkrXQw9kL/r54fCF2RBbGri s7+5RYH/ioAS6hXm/iY= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Lzavdu/+bN8Q3cXw7+sJQn/P0yOfwv/fFtLcbHiKvjYFgahsXpekRbm3lL0aoljDYfGXg0j67Y/J 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block CQirmkq/BKqR+F2Yg4UkWTIdFrTRgyk4k2iLzfwHOmDbkUM55Mewqizh4+Lf+dmwwhALeC71UJDA 8mCAPTmMHA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BYObDmDa8ddFsyZLooUzpHL8ns08oRugCcZI2k8wJ7bPNu9wkzUe6gLxEl5Rus5mNXhYLj63VAJ7 Iv4x/x3ytUfhu3Rr/6uxmrwyULLvv11XEvyVGCHx4t+Dw8cVgkM3usRkRQjUSA971GtmeHD/8MvS cZY9jYskPE1Jpp2ln4o= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Kh2guWzq3vblhcxdfJUid0wZnG6MC3o3a3YO1P6t3Zu5fbaVoJKIAXW4U451VmelQdzOKVHousSk 45IlwBxf/RYbtIg9YdXFrqworoOKKYA8Ps20E3y76/ejy57L44f0vm/NoFaa8+RGMVOrMaXWkAX/ 5m2QReWMg9vAFlHZfrIsQnJM7q9vDbH/9XlzT7azdJd5gljApTrMFtiNcALEiKPoDWNj9DKTR/5M z6fXEbBnQi7svJI++6ajKLfscdCdmkML0xv5aJaja/A6sBU3ZyweO65mSDcAEiF4/LGSrOI+kROs k5jflROeFMl/1IvGNyU4OxK3jsBOPTmAsiyzeQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ybTxbKW8ZHek5yeUP9rGjX5z9pX54PPpKlEu/sk4QGiMGrMi9n6exyltQw3382l1i1u3uPUdj71P S8JZfrL7/T6Wx0syH1SqEmm7l5ELtT4AmtRRmr7PjBfr1/vMkuv09pkrXQw9kL/r54fCF2RBbGri s7+5RYH/ioAS6hXm/iY= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Lzavdu/+bN8Q3cXw7+sJQn/P0yOfwv/fFtLcbHiKvjYFgahsXpekRbm3lL0aoljDYfGXg0j67Y/J 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block CQirmkq/BKqR+F2Yg4UkWTIdFrTRgyk4k2iLzfwHOmDbkUM55Mewqizh4+Lf+dmwwhALeC71UJDA 8mCAPTmMHA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BYObDmDa8ddFsyZLooUzpHL8ns08oRugCcZI2k8wJ7bPNu9wkzUe6gLxEl5Rus5mNXhYLj63VAJ7 Iv4x/x3ytUfhu3Rr/6uxmrwyULLvv11XEvyVGCHx4t+Dw8cVgkM3usRkRQjUSA971GtmeHD/8MvS cZY9jYskPE1Jpp2ln4o= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Kh2guWzq3vblhcxdfJUid0wZnG6MC3o3a3YO1P6t3Zu5fbaVoJKIAXW4U451VmelQdzOKVHousSk 45IlwBxf/RYbtIg9YdXFrqworoOKKYA8Ps20E3y76/ejy57L44f0vm/NoFaa8+RGMVOrMaXWkAX/ 5m2QReWMg9vAFlHZfrIsQnJM7q9vDbH/9XlzT7azdJd5gljApTrMFtiNcALEiKPoDWNj9DKTR/5M z6fXEbBnQi7svJI++6ajKLfscdCdmkML0xv5aJaja/A6sBU3ZyweO65mSDcAEiF4/LGSrOI+kROs k5jflROeFMl/1IvGNyU4OxK3jsBOPTmAsiyzeQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ybTxbKW8ZHek5yeUP9rGjX5z9pX54PPpKlEu/sk4QGiMGrMi9n6exyltQw3382l1i1u3uPUdj71P S8JZfrL7/T6Wx0syH1SqEmm7l5ELtT4AmtRRmr7PjBfr1/vMkuv09pkrXQw9kL/r54fCF2RBbGri s7+5RYH/ioAS6hXm/iY= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Lzavdu/+bN8Q3cXw7+sJQn/P0yOfwv/fFtLcbHiKvjYFgahsXpekRbm3lL0aoljDYfGXg0j67Y/J 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block CQirmkq/BKqR+F2Yg4UkWTIdFrTRgyk4k2iLzfwHOmDbkUM55Mewqizh4+Lf+dmwwhALeC71UJDA 8mCAPTmMHA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BYObDmDa8ddFsyZLooUzpHL8ns08oRugCcZI2k8wJ7bPNu9wkzUe6gLxEl5Rus5mNXhYLj63VAJ7 Iv4x/x3ytUfhu3Rr/6uxmrwyULLvv11XEvyVGCHx4t+Dw8cVgkM3usRkRQjUSA971GtmeHD/8MvS cZY9jYskPE1Jpp2ln4o= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Kh2guWzq3vblhcxdfJUid0wZnG6MC3o3a3YO1P6t3Zu5fbaVoJKIAXW4U451VmelQdzOKVHousSk 45IlwBxf/RYbtIg9YdXFrqworoOKKYA8Ps20E3y76/ejy57L44f0vm/NoFaa8+RGMVOrMaXWkAX/ 5m2QReWMg9vAFlHZfrIsQnJM7q9vDbH/9XlzT7azdJd5gljApTrMFtiNcALEiKPoDWNj9DKTR/5M z6fXEbBnQi7svJI++6ajKLfscdCdmkML0xv5aJaja/A6sBU3ZyweO65mSDcAEiF4/LGSrOI+kROs k5jflROeFMl/1IvGNyU4OxK3jsBOPTmAsiyzeQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ybTxbKW8ZHek5yeUP9rGjX5z9pX54PPpKlEu/sk4QGiMGrMi9n6exyltQw3382l1i1u3uPUdj71P S8JZfrL7/T6Wx0syH1SqEmm7l5ELtT4AmtRRmr7PjBfr1/vMkuv09pkrXQw9kL/r54fCF2RBbGri s7+5RYH/ioAS6hXm/iY= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Lzavdu/+bN8Q3cXw7+sJQn/P0yOfwv/fFtLcbHiKvjYFgahsXpekRbm3lL0aoljDYfGXg0j67Y/J 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`protect begin_protected `protect version = 1 `protect encrypt_agent = "XILINX" `protect encrypt_agent_info = "Xilinx Encryption Tool 2014" `protect key_keyowner = "Cadence Design Systems.", key_keyname= "cds_rsa_key", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 64) `protect key_block CQirmkq/BKqR+F2Yg4UkWTIdFrTRgyk4k2iLzfwHOmDbkUM55Mewqizh4+Lf+dmwwhALeC71UJDA 8mCAPTmMHA== `protect key_keyowner = "Mentor Graphics Corporation", key_keyname= "MGC-VERIF-SIM-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block BYObDmDa8ddFsyZLooUzpHL8ns08oRugCcZI2k8wJ7bPNu9wkzUe6gLxEl5Rus5mNXhYLj63VAJ7 Iv4x/x3ytUfhu3Rr/6uxmrwyULLvv11XEvyVGCHx4t+Dw8cVgkM3usRkRQjUSA971GtmeHD/8MvS cZY9jYskPE1Jpp2ln4o= `protect key_keyowner = "Xilinx", key_keyname= "xilinx_2014_03", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Kh2guWzq3vblhcxdfJUid0wZnG6MC3o3a3YO1P6t3Zu5fbaVoJKIAXW4U451VmelQdzOKVHousSk 45IlwBxf/RYbtIg9YdXFrqworoOKKYA8Ps20E3y76/ejy57L44f0vm/NoFaa8+RGMVOrMaXWkAX/ 5m2QReWMg9vAFlHZfrIsQnJM7q9vDbH/9XlzT7azdJd5gljApTrMFtiNcALEiKPoDWNj9DKTR/5M z6fXEbBnQi7svJI++6ajKLfscdCdmkML0xv5aJaja/A6sBU3ZyweO65mSDcAEiF4/LGSrOI+kROs k5jflROeFMl/1IvGNyU4OxK3jsBOPTmAsiyzeQ== `protect key_keyowner = "Synopsys", key_keyname= "SNPS-VCS-RSA-1", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 128) `protect key_block ybTxbKW8ZHek5yeUP9rGjX5z9pX54PPpKlEu/sk4QGiMGrMi9n6exyltQw3382l1i1u3uPUdj71P S8JZfrL7/T6Wx0syH1SqEmm7l5ELtT4AmtRRmr7PjBfr1/vMkuv09pkrXQw9kL/r54fCF2RBbGri s7+5RYH/ioAS6hXm/iY= `protect key_keyowner = "Aldec", key_keyname= "ALDEC08_001", key_method = "rsa" `protect encoding = (enctype = "BASE64", line_length = 76, bytes = 256) `protect key_block Lzavdu/+bN8Q3cXw7+sJQn/P0yOfwv/fFtLcbHiKvjYFgahsXpekRbm3lL0aoljDYfGXg0j67Y/J 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------------------------------------------------------------------------------ --! Copyright (C) 2009 , Olivier Girard -- --! Redistribution and use in source and binary forms, with or without --! modification, are permitted provided that the following conditions --! are met: --! * Redistributions of source code must retain the above copyright --! notice, this list of conditions and the following disclaimer. --! * Redistributions in binary form must reproduce the above copyright --! notice, this list of conditions and the following disclaimer in the --! documentation and/or other materials provided with the distribution. --! * Neither the name of the authors nor the names of its contributors --! may be used to endorse or promote products derived from this software --! without specific prior written permission. -- --! THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" --! AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE --! IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE --! ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE --! LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, --! OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF --! SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS --! INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN --! CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) --! ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF --! THE POSSIBILITY OF SUCH DAMAGE -- ------------------------------------------------------------------------------ -- --! @file fmsp_gpio.vhd --! --! @brief fpgaMSP430 constant Digital I/O interface -- --! @author Emmanuel Amadio, emmanuel.amadio@gmail.com -- ------------------------------------------------------------------------------ --! @version 1 --! @date: 2017-04-21 ------------------------------------------------------------------------------ library ieee; use ieee.std_logic_1164.all; --! standard unresolved logic UX01ZWLH- use ieee.numeric_std.all; --! for the signed, unsigned types and arithmetic ops use ieee.math_real.all; use work.fmsp_misc_package.all; use work.fmsp_per_package.all; use work.fmsp_functions.all; entity fmsp_gpio is generic ( P1_EN : boolean := true; --! Enable Port 1 P2_EN : boolean := true; --! Enable Port 2 P3_EN : boolean := false; --! Enable Port 3 P4_EN : boolean := false; --! Enable Port 4 P5_EN : boolean := false; --! Enable Port 5 P6_EN : boolean := false; --! Enable Port 6 SYNC_P1 : boolean := true; --! Synchronize Port 1 inputs SYNC_P2 : boolean := true; --! Synchronize Port 2 inputs SYNC_P3 : boolean := true; --! Synchronize Port 3 inputs SYNC_P4 : boolean := true; --! Synchronize Port 4 inputs SYNC_P5 : boolean := true; --! Synchronize Port 5 inputs SYNC_P6 : boolean := true --! Synchronize Port 6 inputs ); port ( mclk : in std_logic; --! Main system clock mrst : in std_logic; --! Main system reset --! INPUTs p1_din : in std_logic_vector(7 downto 0); --! Port 1 data input p2_din : in std_logic_vector(7 downto 0); --! Port 2 data input p3_din : in std_logic_vector(7 downto 0); --! Port 3 data input p4_din : in std_logic_vector(7 downto 0); --! Port 4 data input p5_din : in std_logic_vector(7 downto 0); --! Port 5 data input p6_din : in std_logic_vector(7 downto 0); --! Port 6 data input per_addr : in std_logic_vector(13 downto 0); --! Peripheral address per_din : in std_logic_vector(15 downto 0); --! Peripheral data input per_en : in std_logic; --! Peripheral enable (high active) per_we : in std_logic_vector(1 downto 0); --! Peripheral write enable (high active) --! OUTPUTs irq_port1 : out std_logic; --! Port 1 interrupt irq_port2 : out std_logic; --! Port 2 interrupt p1_dout : out std_logic_vector(7 downto 0); --! Port 1 data output p1_dout_en : out std_logic_vector(7 downto 0); --! Port 1 data output enable p1_sel : out std_logic_vector(7 downto 0); --! Port 1 function select p2_dout : out std_logic_vector(7 downto 0); --! Port 2 data output p2_dout_en : out std_logic_vector(7 downto 0); --! Port 2 data output enable p2_sel : out std_logic_vector(7 downto 0); --! Port 2 function select p3_dout : out std_logic_vector(7 downto 0); --! Port 3 data output p3_dout_en : out std_logic_vector(7 downto 0); --! Port 3 data output enable p3_sel : out std_logic_vector(7 downto 0); --! Port 3 function select p4_dout : out std_logic_vector(7 downto 0); --! Port 4 data output p4_dout_en : out std_logic_vector(7 downto 0); --! Port 4 data output enable p4_sel : out std_logic_vector(7 downto 0); --! Port 4 function select p5_dout : out std_logic_vector(7 downto 0); --! Port 5 data output p5_dout_en : out std_logic_vector(7 downto 0); --! Port 5 data output enable p5_sel : out std_logic_vector(7 downto 0); --! Port 5 function select p6_dout : out std_logic_vector(7 downto 0); --! Port 6 data output p6_dout_en : out std_logic_vector(7 downto 0); --! Port 6 data output enable p6_sel : out std_logic_vector(7 downto 0); --! Port 6 function select per_dout : out std_logic_vector(15 downto 0) --! Peripheral data output ); end entity fmsp_gpio; architecture RTL of fmsp_gpio is --============================================================================= --! 1) PARAMETER DECLARATION --============================================================================= --! Register base address (must be aligned to decoder bit width) constant BASE_ADDR : std_logic_vector(14 downto 0) := "000000000000000"; --! Decoder bit width (defines how many bits are considered for address decoding) constant DEC_WD : integer := 7; --! Register addresses offset constant LED_CTRL : integer := 0; --! ''h0, constant P1IN : integer := 32; --! ''h20, --! Port 1 constant P1OUT : integer := 33; --! ''h21, constant P1DIR : integer := 34; --! ''h22, constant P1IFG : integer := 35; --! ''h23, constant P1IES : integer := 36; --! ''h24, constant P1IE : integer := 37; --! ''h25, constant P1SEL : integer := 38; --! ''h26, constant P2IN : integer := 40; --! ''h28, --! Port 2 constant P2OUT : integer := 41; --! ''h29, constant P2DIR : integer := 42; --! ''h2A, constant P2IFG : integer := 43; --! ''h2B, constant P2IES : integer := 44; --! ''h2C, constant P2IE : integer := 45; --! ''h2D, constant P2SEL : integer := 46; --! ''h2E, constant P3IN : integer := 24; --! ''h18, --! Port 3 constant P3OUT : integer := 25; --! ''h19, constant P3DIR : integer := 26; --! ''h1A, constant P3SEL : integer := 27; --! ''h1B, constant P4IN : integer := 28; --! ''h1C, --! Port 4 constant P4OUT : integer := 29; --! ''h1D, constant P4DIR : integer := 30; --! ''h1E, constant P4SEL : integer := 31; --! ''h1F, constant P5IN : integer := 48; --! ''h30, --! Port 5 constant P5OUT : integer := 49; --! ''h31, constant P5DIR : integer := 50; --! ''h32, constant P5SEL : integer := 51; --! ''h33, constant P6IN : integer := 52; --! ''h34, --! Port 6 constant P6OUT : integer := 53; --! ''h35, constant P6DIR : integer := 54; --! ''h36, constant P6SEL : integer := 55; --! ''h37; --! Register one-hot decoder utilities constant DEC_SZ : integer := (2*DEC_WD); type fmsp_gpio_in_type is record p1_din : std_logic_vector(7 downto 0); --! Port 1 data input p2_din : std_logic_vector(7 downto 0); --! Port 2 data input p3_din : std_logic_vector(7 downto 0); --! Port 3 data input p4_din : std_logic_vector(7 downto 0); --! Port 4 data input p5_din : std_logic_vector(7 downto 0); --! Port 5 data input p6_din : std_logic_vector(7 downto 0); --! Port 6 data input per_addr : std_logic_vector(13 downto 0); --! Peripheral address per_din : std_logic_vector(15 downto 0); --! Peripheral data input per_en : std_logic; --! Peripheral enable (high active) per_we : std_logic_vector(1 downto 0); --! Peripheral write enable (high active) --! From sub modules p1in : std_logic_vector(7 downto 0); --! Port 1 data input p2in : std_logic_vector(7 downto 0); --! Port 2 data input p3in : std_logic_vector(7 downto 0); --! Port 3 data input p4in : std_logic_vector(7 downto 0); --! Port 4 data input p5in : std_logic_vector(7 downto 0); --! Port 5 data input p6in : std_logic_vector(7 downto 0); --! Port 6 data input end record; type reg_type is record p1out : std_logic_vector(7 downto 0); p1dir : std_logic_vector(7 downto 0); p1ifg : std_logic_vector(7 downto 0); p1ies : std_logic_vector(7 downto 0); p1ie : std_logic_vector(7 downto 0); p1sel : std_logic_vector(7 downto 0); p2out : std_logic_vector(7 downto 0); p2dir : std_logic_vector(7 downto 0); p2ifg : std_logic_vector(7 downto 0); p2ies : std_logic_vector(7 downto 0); p2ie : std_logic_vector(7 downto 0); p2sel : std_logic_vector(7 downto 0); p3out : std_logic_vector(7 downto 0); p3dir : std_logic_vector(7 downto 0); p3sel : std_logic_vector(7 downto 0); p4out : std_logic_vector(7 downto 0); p4dir : std_logic_vector(7 downto 0); p4sel : std_logic_vector(7 downto 0); p5out : std_logic_vector(7 downto 0); p5dir : std_logic_vector(7 downto 0); p5sel : std_logic_vector(7 downto 0); p6out : std_logic_vector(7 downto 0); p6dir : std_logic_vector(7 downto 0); p6sel : std_logic_vector(7 downto 0); p1in_dly : std_logic_vector(7 downto 0); p2in_dly : std_logic_vector(7 downto 0); end record; signal d : fmsp_gpio_in_type; signal r : reg_type := ( p1out => "00000000", p1dir => "00000000", p1ifg => "00000000", p1ies => "00000000", p1ie => "00000000", p1sel => "00000000", p2out => "00000000", p2dir => "00000000", p2ifg => "00000000", p2ies => "00000000", p2ie => "00000000", p2sel => "00000000", p3out => "00000000", p3dir => "00000000", p3sel => "00000000", p4out => "00000000", p4dir => "00000000", p4sel => "00000000", p5out => "00000000", p5dir => "00000000", p5sel => "00000000", p6out => "00000000", p6dir => "00000000", p6sel => "00000000", p1in_dly => "00000000", p2in_dly => "00000000" ); signal rin : reg_type; begin d.p1_din <= p1_din; d.p2_din <= p2_din; d.p3_din <= p3_din; d.p4_din <= p4_din; d.p5_din <= p5_din; d.p6_din <= p6_din; d.per_addr <= per_addr; d.per_din <= per_din; d.per_en <= per_en; d.per_we <= per_we; COMB : process (d, r) variable v : reg_type; --! Local register selection variable v_reg_sel : std_logic; --! Register local address variable v_reg_addr : std_logic_vector(DEC_WD-2 downto 0); --! Register address decode variable v_reg_dec : std_logic_vector((DEC_SZ/2)-1 downto 0); --! Read/Write probes variable v_reg_lo_write : std_logic; variable v_reg_hi_write : std_logic; variable v_reg_read : std_logic; --! Read/Write vectors variable v_reg_wr : std_logic_vector(DEC_SZ-1 downto 0); variable v_reg_rd : std_logic_vector(DEC_SZ-1 downto 0); --! P1OUT Register variable v_p1in : std_logic_vector(7 downto 0); variable v_p1out_wr : std_logic; variable v_p1out_nxt : std_logic_vector(7 downto 0); --! P1DIR Register variable v_p1dir_wr : std_logic; variable v_p1dir_nxt : std_logic_vector(7 downto 0); variable v_p1_dout_en : std_logic_vector(7 downto 0); --! P1IFG Register variable v_p1ifg_wr : std_logic; variable v_p1ifg_nxt : std_logic_vector(7 downto 0); variable v_p1ifg_set : std_logic_vector(7 downto 0); --! P1IES Register variable v_p1ies_wr : std_logic; variable v_p1ies_nxt : std_logic_vector(7 downto 0); --! P1IE Register variable v_p1ie_wr : std_logic; variable v_p1ie_nxt : std_logic_vector(7 downto 0); --! P1SEL Register variable v_p1sel_wr : std_logic; variable v_p1sel_nxt : std_logic_vector(7 downto 0); variable v_p1_sel : std_logic_vector(7 downto 0); --! P2IN Register variable v_p2in : std_logic_vector(7 downto 0); --! P2OUT Register variable v_p2out_wr : std_logic; variable v_p2out_nxt : std_logic_vector(7 downto 0); --! P2DIR Register variable v_p2dir_wr : std_logic; variable v_p2dir_nxt : std_logic_vector(7 downto 0); variable v_p2_dout_en : std_logic_vector(7 downto 0); --! P2IFG Register variable v_p2ifg_wr : std_logic; variable v_p2ifg_nxt : std_logic_vector(7 downto 0); variable v_p2ifg_set : std_logic_vector(7 downto 0); --! P2IES Register variable v_p2ies_wr : std_logic; variable v_p2ies_nxt : std_logic_vector(7 downto 0); --! P2IE Register variable v_p2ie_wr : std_logic; variable v_p2ie_nxt : std_logic_vector(7 downto 0); --! P2SEL Register variable v_p2sel_wr : std_logic; variable v_p2sel_nxt : std_logic_vector(7 downto 0); variable v_p2_sel : std_logic_vector(7 downto 0); --! P3OUT Register variable v_p3in : std_logic_vector(7 downto 0); variable v_p3out_wr : std_logic; variable v_p3out_nxt : std_logic_vector(7 downto 0); --! P3DIR Register variable v_p3dir_wr : std_logic; variable v_p3dir_nxt : std_logic_vector(7 downto 0); variable v_p3_dout_en : std_logic; --! P3SEL Register variable v_p3sel_wr : std_logic; variable v_p3sel_nxt : std_logic_vector(7 downto 0); variable v_p3_sel : std_logic_vector(7 downto 0); --! P4OUT Register variable v_p4in : std_logic_vector(7 downto 0); variable v_p4out_wr : std_logic; variable v_p4out_nxt : std_logic_vector(7 downto 0); --! P4DIR Register variable v_p4dir_wr : std_logic; variable v_p4dir_nxt : std_logic_vector(7 downto 0); variable v_p4_dout_en : std_logic_vector(7 downto 0); --! P4SEL Register variable v_p4sel_wr : std_logic; variable v_p4sel_nxt : std_logic_vector(7 downto 0); variable v_p4_sel : std_logic_vector(7 downto 0); --! P5OUT Register variable v_p5in : std_logic_vector(7 downto 0); variable v_p5out_wr : std_logic; variable v_p5out_nxt : std_logic_vector(7 downto 0); --! P5DIR Register variable v_p5dir_wr : std_logic; variable v_p5dir_nxt : std_logic_vector(7 downto 0); variable v_p5_dout_en : std_logic; --! P5SEL Register variable v_p5sel_wr : std_logic; variable v_p5sel_nxt : std_logic_vector(7 downto 0); variable v_p5_sel : std_logic_vector(7 downto 0); --! P6OUT Register variable v_p6in : std_logic_vector(7 downto 0); variable v_p6out_wr : std_logic; variable v_p6out_nxt : std_logic_vector(7 downto 0); --! P6DIR Register variable v_p6dir_wr : std_logic; variable v_p6dir_nxt : std_logic_vector(7 downto 0); variable v_p6_dout_en : std_logic_vector(7 downto 0); --! P6SEL Register variable v_p6sel_wr : std_logic; variable v_p6sel_nxt : std_logic_vector(7 downto 0); variable v_p6_sel : std_logic_vector(7 downto 0); --! 4) INTERRUPT GENERATION --! Port 1 interrupt --! Edge detection variable v_p1in_re : std_logic_vector(7 downto 0); variable v_p1in_fe : std_logic_vector(7 downto 0); --! Set interrupt flag --variable v_p1ifg_set : std_logic; --! Generate CPU interrupt variable v_irq_port1 : std_logic; --! Port 1 interrupt -------------------- --! Delay input --! Edge detection variable v_p2in_re : std_logic_vector(7 downto 0); variable v_p2in_fe : std_logic_vector(7 downto 0); --! Set interrupt flag --variable v_p2ifg_set : std_logic; --! Generate CPU interrupt variable v_irq_port2 : std_logic; --! Data output mux variable v_p1in_rd : std_logic_vector(15 downto 0); variable v_p1out_rd : std_logic_vector(15 downto 0); variable v_p1dir_rd : std_logic_vector(15 downto 0); variable v_p1ifg_rd : std_logic_vector(15 downto 0); variable v_p1ies_rd : std_logic_vector(15 downto 0); variable v_p1ie_rd : std_logic_vector(15 downto 0); variable v_p1sel_rd : std_logic_vector(15 downto 0); variable v_p2in_rd : std_logic_vector(15 downto 0); variable v_p2out_rd : std_logic_vector(15 downto 0); variable v_p2dir_rd : std_logic_vector(15 downto 0); variable v_p2ifg_rd : std_logic_vector(15 downto 0); variable v_p2ies_rd : std_logic_vector(15 downto 0); variable v_p2ie_rd : std_logic_vector(15 downto 0); variable v_p2sel_rd : std_logic_vector(15 downto 0); variable v_p3in_rd : std_logic_vector(15 downto 0); variable v_p3out_rd : std_logic_vector(15 downto 0); variable v_p3dir_rd : std_logic_vector(15 downto 0); variable v_p3sel_rd : std_logic_vector(15 downto 0); variable v_p4in_rd : std_logic_vector(15 downto 0); variable v_p4out_rd : std_logic_vector(15 downto 0); variable v_p4dir_rd : std_logic_vector(15 downto 0); variable v_p4sel_rd : std_logic_vector(15 downto 0); variable v_p5in_rd : std_logic_vector(15 downto 0); variable v_p5out_rd : std_logic_vector(15 downto 0); variable v_p5dir_rd : std_logic_vector(15 downto 0); variable v_p5sel_rd : std_logic_vector(15 downto 0); variable v_p6in_rd : std_logic_vector(15 downto 0); variable v_p6out_rd : std_logic_vector(15 downto 0); variable v_p6dir_rd : std_logic_vector(15 downto 0); variable v_p6sel_rd : std_logic_vector(15 downto 0); variable v_per_dout : std_logic_vector(15 downto 0); begin --! default assignment v := r; --! overriding assignments --============================================================================ --! 2) REGISTER DECODER --============================================================================ --! Local register selection if ( d.per_addr(13 downto DEC_WD-1) = BASE_ADDR(14 downto DEC_WD) ) then v_reg_sel := d.per_en; else v_reg_sel := '0'; end if; --! Register local address v_reg_addr := d.per_addr(DEC_WD-2 downto 0); --! Register address decode v_reg_dec := onehot(v_reg_addr); --! Read/Write probes v_reg_lo_write := v_reg_sel and d.per_we(0); v_reg_hi_write := v_reg_sel and d.per_we(1); v_reg_read := v_reg_sel and not(d.per_we(0) or d.per_we(1)); --! Read/Write vectors for i in 0 to (DEC_SZ/2)-1 loop v_reg_wr((i2)+0) := v_reg_dec(i) and v_reg_lo_write; v_reg_wr((i2)+1) := v_reg_dec(i) and v_reg_hi_write; v_reg_rd((i2)+0) := v_reg_dec(i) and v_reg_read; v_reg_rd((i*2)+1) := v_reg_dec(i) and v_reg_read; end loop; --============================================================================ --! 4) INTERRUPT GENERATION --============================================================================ --! Port 1 interrupt if (P1_EN = false) then v_p1in := "00000000"; elsif (SYNC_P1 = true) then v_p1in := d.p1in; else v_p1in := d.p1_din; end if; --! Delay input v.p1in_dly := v_p1in; --! Edge detection v_p1in_re := v_p1in and not( r.p1in_dly); v_p1in_fe := not(v_p1in) and r.p1in_dly; --! Set interrupt flag for i in 0 to 7 loop if (P1_EN = false) then v_p1ifg_set(i) := '0'; elsif (r.p1ies(i) = '1') then v_p1ifg_set(i) := v_p1in_fe(i); else v_p1ifg_set(i) := v_p1in_re(i); end if; end loop; --! Generate CPU interrupt if (P1_EN = false) then v_irq_port1 := '0'; elsif ( (r.p1ie and r.p1ifg) /= "00000000") then v_irq_port1 := '1'; else v_irq_port1 := '0'; end if; --! Port 2 interrupt if (P2_EN = false) then v_p2in := "00000000"; elsif (SYNC_P2 = true) then v_p2in := d.p2in; else v_p2in := d.p2_din; end if; --! Delay input v.p2in_dly := v_p2in; --! Edge detection v_p2in_re := d.p2in and not( r.p2in_dly); v_p2in_fe := not(d.p2in) and r.p2in_dly; --! Set interrupt flag for i in 0 to 7 loop if (P2_EN = false) then v_p2ifg_set(i) := '0'; elsif (r.p2ies(i) = '1') then v_p2ifg_set(i) := v_p2in_fe(i); else v_p2ifg_set(i) := v_p2in_re(i); end if; end loop; --! Generate CPU interrupt if (P2_EN = false) then v_irq_port2 := '0'; elsif ( (r.p2ie and r.p2ifg) /= "00000000") then v_irq_port2 := '1'; else v_irq_port2 := '0'; end if; --============================================================================ --! 3) REGISTERS --============================================================================ --! P1IFG Register v_p1ifg_wr := v_reg_wr(P1IFG); v_p1ifg_nxt := byte_per_select_din( P1IFG, d.per_din ); if (P1_EN = false) then v.p1ifg := "00000000"; elsif (v_p1ies_wr = '1') then v.p1ifg := v_p1ifg_nxt or v_p1ifg_set; else v.p1ifg := r.p1ifg or v_p1ifg_set; end if; --! P1IES Register v_p1ies_wr := v_reg_wr(P1IES); v_p1ies_nxt := byte_per_select_din( P1IES, d.per_din ); if (P1_EN = false) then v.p1ies := "00000000"; elsif (v_p1ies_wr = '1') then v.p1ies := v_p1ies_nxt; end if; --! P1IE Register v_p1ie_wr := v_reg_wr(P1IE); v_p1ie_nxt := byte_per_select_din( P1IE, d.per_din ); if (P1_EN = false) then v.p1ie := "00000000"; elsif (v_p1ie_wr = '1') then v.p1ie := v_p1ie_nxt; end if; --! P2IFG Register v_p2ifg_wr := v_reg_wr(P2IFG); v_p2ifg_nxt := byte_per_select_din( P2IFG, d.per_din ); if (P2_EN = false) then v.p2ifg := "00000000"; elsif (v_p2ies_wr = '1') then v.p2ifg := v_p2ifg_nxt or v_p2ifg_set; else v.p2ifg := r.p2ifg or v_p2ifg_set; end if; --! P2IES Register v_p2ies_wr := v_reg_wr(P2IES); v_p2ies_nxt := byte_per_select_din( P2IES, d.per_din ); if (P2_EN = false) then v.p2ies := "00000000"; elsif (v_p2ies_wr = '1') then v.p2ies := v_p2ies_nxt; end if; --! P2IE Register v_p2ie_wr := v_reg_wr(P2IE); v_p2ie_nxt := byte_per_select_din( P2IE, d.per_din ); if (P2_EN = false) then v.p2ie := "00000000"; elsif (v_p2ie_wr = '1') then v.p2ie := v_p2ie_nxt; end if; --! P1OUT Register v_p1out_wr := v_reg_wr(P1OUT); v_p1out_nxt := byte_per_select_din( P1OUT, d.per_din ); if (P1_EN = false) then v.p1out := "00000000"; elsif (v_p1out_wr = '1') then v.p1out := v_p1out_nxt; end if; --! P1DIR Register v_p1dir_wr := v_reg_wr(P1DIR); v_p1dir_nxt := byte_per_select_din( P1DIR, d.per_din ); if (P1_EN = false) then v.p1dir := "00000000"; elsif (v_p1dir_wr = '1') then v.p1dir := v_p1dir_nxt; end if; --! P1SEL Register v_p1sel_wr := v_reg_wr(P1SEL); v_p1sel_nxt := byte_per_select_din( P1SEL, d.per_din ); if (P1_EN = false) then v.p1sel := "00000000"; elsif (v_p1sel_wr = '1') then v.p1sel := v_p1sel_nxt; end if; --! P2OUT Register v_p2out_wr := v_reg_wr(P2OUT); v_p2out_nxt := byte_per_select_din( P2OUT, d.per_din ); if (P2_EN = false) then v.p2out := "00000000"; elsif (v_p2out_wr = '1') then v.p2out := v_p2out_nxt; end if; --! P2DIR Register v_p2dir_wr := v_reg_wr(P2DIR); v_p2dir_nxt := byte_per_select_din( P2DIR, d.per_din ); if (P2_EN = false) then v.p2dir := "00000000"; elsif (v_p2dir_wr = '1') then v.p2dir := v_p2dir_nxt; end if; --! P2SEL Register v_p2sel_wr := v_reg_wr(P2SEL); v_p2sel_nxt := byte_per_select_din( P2SEL, d.per_din ); if (P2_EN = false) then v.p2sel := "00000000"; elsif (v_p2sel_wr = '1') then v.p2sel := v_p2sel_nxt; end if; --! P3IN Register if (P3_EN = false) then v_p3in := "00000000"; elsif (SYNC_P3 = true) then v_p3in := d.p3in; else v_p3in := d.p3_din; end if; --! P3OUT Register v_p3out_wr := v_reg_wr(P3OUT); v_p3out_nxt := byte_per_select_din( P3OUT, d.per_din ); if (P3_EN = false) then v.p3out := "00000000"; elsif (v_p3out_wr = '1') then v.p3out := v_p3out_nxt; end if; --! P3DIR Register v_p3dir_wr := v_reg_wr(P3DIR); v_p3dir_nxt := byte_per_select_din( P3DIR, d.per_din ); if (P3_EN = false) then v.p3dir := "00000000"; elsif (v_p3dir_wr = '1') then v.p3dir := v_p3dir_nxt; end if; --! P3SEL Register v_p3sel_wr := v_reg_wr(P3SEL); v_p3sel_nxt := byte_per_select_din( P3SEL, d.per_din ); if (P3_EN = false) then v.p3sel := "00000000"; elsif (v_p3sel_wr = '1') then v.p3sel := v_p3sel_nxt; end if; --! P4IN Register if (P4_EN = false) then v_p4in := "00000000"; elsif (SYNC_P4 = true) then v_p4in := d.p4in; else v_p4in := d.p4_din; end if; --! P4OUT Register v_p4out_wr := v_reg_wr(P4OUT); v_p4out_nxt := byte_per_select_din( P4OUT, d.per_din ); if (P4_EN = false) then v.p4out := "00000000"; elsif (v_p4out_wr = '1') then v.p4out := v_p4out_nxt; end if; --! P4DIR Register v_p4dir_wr := v_reg_wr(P4DIR); v_p4dir_nxt := byte_per_select_din( P4DIR, d.per_din ); if (P4_EN = false) then v.p4dir := "00000000"; elsif (v_p4dir_wr = '1') then v.p4dir := v_p4dir_nxt; end if; --! P4SEL Register v_p4sel_wr := v_reg_wr(P4SEL); v_p4sel_nxt := byte_per_select_din( P4SEL, d.per_din ); if (P4_EN = false) then v.p4sel := "00000000"; elsif (v_p4sel_wr = '1') then v.p4sel := v_p4sel_nxt; end if; --! P5IN Register if (P5_EN = false) then v_p5in := "00000000"; elsif (SYNC_P5 = true) then v_p5in := d.p5in; else v_p5in := d.p5_din; end if; --! P5OUT Register v_p5out_wr := v_reg_wr(P5OUT); v_p5out_nxt := byte_per_select_din( P5OUT, d.per_din ); if (P5_EN = false) then v.p5out := "00000000"; elsif (v_p5out_wr = '1') then v.p5out := v_p5out_nxt; end if; --! P5DIR Register v_p5dir_wr := v_reg_wr(P5DIR); v_p5dir_nxt := byte_per_select_din( P5DIR, d.per_din ); if (P5_EN = false) then v.p5dir := "00000000"; elsif (v_p5dir_wr = '1') then v.p5dir := v_p5dir_nxt; end if; --! P5SEL Register v_p5sel_wr := v_reg_wr(P5SEL); v_p5sel_nxt := byte_per_select_din( P5SEL, d.per_din ); if (P5_EN = false) then v.p5sel := "00000000"; elsif (v_p5sel_wr = '1') then v.p5sel := v_p5sel_nxt; end if; --! P6IN Register if (P6_EN = false) then v_p6in := "00000000"; elsif (SYNC_P6 = true) then v_p6in := d.p6in; else v_p6in := d.p6_din; end if; --! P6OUT Register v_p6out_wr := v_reg_wr(P6OUT); v_p6out_nxt := byte_per_select_din( P6OUT, d.per_din ); if (P6_EN = false) then v.p6out := "00000000"; elsif (v_p6out_wr = '1') then v.p6out := v_p6out_nxt; end if; --! P6DIR Register v_p6dir_wr := v_reg_wr(P6DIR); v_p6dir_nxt := byte_per_select_din( P6DIR, d.per_din ); if (P6_EN = false) then v.p6dir := "00000000"; elsif (v_p6dir_wr = '1') then v.p6dir := v_p6dir_nxt; end if; --! P6SEL Register v_p6sel_wr := v_reg_wr(P6SEL); v_p6sel_nxt := byte_per_select_din( P6SEL, d.per_din ); if (P6_EN = false) then v.p6sel := "00000000"; elsif (v_p6sel_wr = '1') then v.p6sel := v_p6sel_nxt; end if; --============================================================================ --! 5) DATA OUTPUT GENERATION --============================================================================ --! Data output mux v_p1in_rd := byte_per_select_dout( P1IN, v_reg_rd, v_p1in ); v_p1out_rd := byte_per_select_dout( P1OUT, v_reg_rd, r.p1out ); v_p1dir_rd := byte_per_select_dout( P1DIR, v_reg_rd, r.p1dir ); v_p1ifg_rd := byte_per_select_dout( P1IFG, v_reg_rd, r.p1ifg ); v_p1ies_rd := byte_per_select_dout( P1IES, v_reg_rd, r.p1ies ); v_p1ie_rd := byte_per_select_dout( P1IE, v_reg_rd, r.p1ie ); v_p1sel_rd := byte_per_select_dout( P1SEL, v_reg_rd, r.p1sel ); v_p2in_rd := byte_per_select_dout( P2IN, v_reg_rd, v_p2in ); v_p2out_rd := byte_per_select_dout( P2OUT, v_reg_rd, r.p2out ); v_p2dir_rd := byte_per_select_dout( P2DIR, v_reg_rd, r.p2dir ); v_p2ifg_rd := byte_per_select_dout( P2IFG, v_reg_rd, r.p2ifg ); v_p2ies_rd := byte_per_select_dout( P2IES, v_reg_rd, r.p2ies ); v_p2ie_rd := byte_per_select_dout( P2IE, v_reg_rd, r.p2ie ); v_p2sel_rd := byte_per_select_dout( P2SEL, v_reg_rd, r.p2sel ); v_p3in_rd := byte_per_select_dout( P3IN, v_reg_rd, v_p3in ); v_p3out_rd := byte_per_select_dout( P3OUT, v_reg_rd, r.p3out ); v_p3dir_rd := byte_per_select_dout( P3DIR, v_reg_rd, r.p3dir ); v_p3sel_rd := byte_per_select_dout( P3SEL, v_reg_rd, r.p3sel ); v_p4in_rd := byte_per_select_dout( P4IN, v_reg_rd, v_p4in ); v_p4out_rd := byte_per_select_dout( P4OUT, v_reg_rd, r.p4out ); v_p4dir_rd := byte_per_select_dout( P4DIR, v_reg_rd, r.p4dir ); v_p4sel_rd := byte_per_select_dout( P4SEL, v_reg_rd, r.p4sel ); v_p5in_rd := byte_per_select_dout( P5IN, v_reg_rd, v_p5in ); v_p5out_rd := byte_per_select_dout( P5OUT, v_reg_rd, r.p5out ); v_p5dir_rd := byte_per_select_dout( P5DIR, v_reg_rd, r.p5dir ); v_p5sel_rd := byte_per_select_dout( P5SEL, v_reg_rd, r.p5sel ); v_p6in_rd := byte_per_select_dout( P6IN, v_reg_rd, v_p6in ); v_p6out_rd := byte_per_select_dout( P6OUT, v_reg_rd, r.p6out ); v_p6dir_rd := byte_per_select_dout( P6DIR, v_reg_rd, r.p6dir ); v_p6sel_rd := byte_per_select_dout( P6SEL, v_reg_rd, r.p6sel ); v_per_dout := v_p1in_rd or v_p1out_rd or v_p1dir_rd or v_p1ifg_rd or v_p1ies_rd or v_p1ie_rd or v_p1sel_rd or v_p2in_rd or v_p2out_rd or v_p2dir_rd or v_p2ifg_rd or v_p2ies_rd or v_p2ie_rd or v_p2sel_rd or v_p3in_rd or v_p3out_rd or v_p3dir_rd or v_p3sel_rd or v_p4in_rd or v_p4out_rd or v_p4dir_rd or v_p4sel_rd or v_p5in_rd or v_p5out_rd or v_p5dir_rd or v_p5sel_rd or v_p6in_rd or v_p6out_rd or v_p6dir_rd or v_p6sel_rd; --! drive register inputs rin <= v; --! drive module outputs irq_port1 <= v_irq_port1; --! Port 1 interrupt irq_port2 <= v_irq_port2; --! Port 2 interrupt p1_dout <= r.p1out; --! Port 1 data output p1_dout_en <= r.p1dir; --! Port 1 data output enable p1_sel <= r.p1sel; --! Port 1 function select p2_dout <= r.p2out; --! Port 2 data output p2_dout_en <= r.p2dir; --! Port 2 data output enable p2_sel <= r.p2sel; --! Port 2 function select p3_dout <= r.p3out; --! Port 3 data output p3_dout_en <= r.p3dir; --! Port 3 data output enable p3_sel <= r.p3sel; --! Port 3 function select p4_dout <= r.p4out; --! Port 4 data output p4_dout_en <= r.p4dir; --! Port 4 data output enable p4_sel <= r.p4sel; --! Port 4 function select p5_dout <= r.p5out; --! Port 5 data output p5_dout_en <= r.p5dir; --! Port 5 data output enable p5_sel <= r.p5sel; --! Port 5 function select p6_dout <= r.p6out; --! Port 6 data output p6_dout_en <= r.p6dir; --! Port 6 data output enable p6_sel <= r.p6sel; --! Port 6 function select per_dout <= v_per_dout; --! Peripheral data output end process COMB; REGS : process (mclk,mrst) begin if (mrst = '1') then r.p1out <= "00000000"; r.p1dir <= "00000000"; r.p1ifg <= "00000000"; r.p1ies <= "00000000"; r.p1ie <= "00000000"; r.p1sel <= "00000000"; r.p2out <= "00000000"; r.p2dir <= "00000000"; r.p2ifg <= "00000000"; r.p2ies <= "00000000"; r.p2ie <= "00000000"; r.p2sel <= "00000000"; r.p3out <= "00000000"; r.p3dir <= "00000000"; r.p3sel <= "00000000"; r.p4out <= "00000000"; r.p4dir <= "00000000"; r.p4sel <= "00000000"; r.p5out <= "00000000"; r.p5dir <= "00000000"; r.p5sel <= "00000000"; r.p6out <= "00000000"; r.p6dir <= "00000000"; r.p6sel <= "00000000"; r.p1in_dly <= "00000000"; r.p2in_dly <= "00000000"; elsif rising_edge(mclk) then r <= rin; end if; end process REGS; p1_in_sync : for i in 0 to 7 generate sync_cell_p1in : fmsp_sync_cell port map( clk => mclk, rst => mrst, data_in => p1_din(i), data_out => d.p1in(i) ); end generate; p2_in_sync : for i in 0 to 7 generate sync_cell_p2in : fmsp_sync_cell port map( clk => mclk, rst => mrst, data_in => p2_din(i), data_out => d.p2in(i) ); end generate; p3_in_sync : for i in 0 to 7 generate sync_cell_p3in : fmsp_sync_cell port map( clk => mclk, rst => mrst, data_in => p3_din(i), data_out => d.p3in(i) ); end generate; p4_in_sync : for i in 0 to 7 generate sync_cell_p4in : fmsp_sync_cell port map( clk => mclk, rst => mrst, data_in => p4_din(i), data_out => d.p4in(i) ); end generate; p5_in_sync : for i in 0 to 7 generate sync_cell_p5in : fmsp_sync_cell port map( clk => mclk, rst => mrst, data_in => p5_din(i), data_out => d.p5in(i) ); end generate; p6_in_sync : for i in 0 to 7 generate sync_cell_p6in : fmsp_sync_cell port map( clk => mclk, rst => mrst, data_in => p6_din(i), data_out => d.p6in(i) ); end generate; end RTL; --! fmsp_gpio
entity tb_fsm_7s is end tb_fsm_7s; library ieee; use ieee.std_logic_1164.all; architecture behav of tb_fsm_7s is signal clk : std_logic; signal rst : std_logic; signal din : std_logic; signal done : std_logic; begin dut: entity work.fsm_7s port map ( done => done, d => din, clk => clk, rst => rst); process constant dat : std_logic_vector := b"1001010_1001010_1100010"; constant res : std_logic_vector := b"0000001_0000001_0000000"; procedure pulse is begin clk <= '0'; wait for 1 ns; clk <= '1'; wait for 1 ns; end pulse; begin rst <= '1'; din <= '0'; pulse; assert done = '0' severity failure; -- Test the whole sequence. rst <= '0'; for i in dat'range loop din <= dat (i); pulse; assert done = res(i) severity failure; end loop; wait; end process; end behav;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc2681.vhd,v 1.2 2001-10-26 16:30:21 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c13s04b01x00p02n01i02681ent IS --ERROR: underline cannot lead a real literal constant a:real:=_1234.5678; -- failure_here END c13s04b01x00p02n01i02681ent; ARCHITECTURE c13s04b01x00p02n01i02681arch OF c13s04b01x00p02n01i02681ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s04b01x00p02n01i02681 - Decimal literal can only begin with an integer." severity ERROR; wait; END PROCESS TESTING; END c13s04b01x00p02n01i02681arch;
-- Copyright (C) 2001 Bill Billowitch. -- Some of the work to develop this test suite was done with Air Force -- support. The Air Force and Bill Billowitch assume no -- responsibilities for this software. -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -- --------------------------------------------------------------------- -- -- $Id: tc2681.vhd,v 1.2 2001-10-26 16:30:21 paw Exp $ -- $Revision: 1.2 $ -- -- --------------------------------------------------------------------- ENTITY c13s04b01x00p02n01i02681ent IS --ERROR: underline cannot lead a real literal constant a:real:=_1234.5678; -- failure_here END c13s04b01x00p02n01i02681ent; ARCHITECTURE c13s04b01x00p02n01i02681arch OF c13s04b01x00p02n01i02681ent IS BEGIN TESTING: PROCESS BEGIN assert FALSE report "***FAILED TEST: c13s04b01x00p02n01i02681 - Decimal literal can only begin with an integer." severity ERROR; wait; END PROCESS TESTING; END c13s04b01x00p02n01i02681arch;

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